Samson Commercial Marine

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1 Commercial Marine

2 Samson Commercial Marine MOORING TUG OFFSHORE Providing high performance synthetic solutions for mooring, tug, offshore, inland river, The Samson Advantage: Where technology and people make the difference TECHNOLOGY Samson pushes the forefront of fiber, coating and rope construction technologies to bring unmatched innovations to market. > Most advanced Research & Development team in the industry > Accurate, reliable product specifications based on rigorous testing and measuring > Certifications with DNV, ABS, NK, Lloyd s and others available > Extensive library of technical resources, case studies and white papers PRODUCTS Samson works closely with customers so they always receive products that are specifically designed to meet the demands of their application. > High performance lightweight synthetic ropes replace wire rope, chain, or other commodity synthetics > Cost-effective products improve efficiency, reduce the cost of operations, and provide long-term value > Safer easier to handle, lighter products mean safer working conditions SERVICE Samson offers world class service and support wherever you need it. Before you place your order until long after the rope is deployed, Samson sales and engineering staff are on your job site or vessel to provide technical support and customized solutions. > Technical consultation to ensure we supply the product that best suits your needs. > Onboard inspections, vessel surveys, and residual strength testing that means you get maximum service life from your rope > On-site training in usage, inspection, handling, and retirement criteria > Comprehensive technical support materials: owner s manuals, technical bulletins, inspection and repair instructions, retirement criteria, splicing instructions, and much more at MANUFACTURING Both of Samson s state-of-the-art facilities operate the most modern equipment available and are strategically located near major shipping ports. > Plants are ISO certified and utilize LEAN manufacturing principles > Lafayette, LA facility is easily accessible to the Gulf of Mexico and the offshore engineering community > Ferndale, WA facility is easily accessible to all ports off the Pacific, from Alaska to Asia to Australia EXPERIENCE Samson s history dates back over 125 years; developing safe, easy handling and reliable synthetic rope solutions. We have more experience designing and developing strength members using Dyneema than any other manufacturer in the world. Known for excellence and quality, we have the experience, integrity, and reliability you can count on.

3 INLAND RIVER COMMERCIAL FISHING commercial fishing and other demanding marine applications COMMERCIAL CM MARINE Samson high performance synthetics have proven reliability while significantly reducing the cost of operations in towing, mooring, and offshore operations. Replace wire with synthetic alternatives that save time and operational costs while increasing levels of handling crew safety and efficiency Traditionally marine engineering has looked to wire rope for many applications. Unfortunately, these extremely heavy strength members limit effective usage and greatly reduce safety due to significant handling problems. Over the last thirty years, Samson has led the development of high modulus synthetic fiber ropes designed to replace wire in critical marine applications. In fact, Samson AmSteel -Blue 12-strand braided Dyneema mooring lines were first to market in the early 1980s. Samson high performance synthetics have proven reliability while significantly reducing the cost of operations in towing, mooring, and offshore operations. Cost savings are realized in numerous areas; reduction in crew requirements, increase in safety for both crew and equipment, and reduction in maintenance costs due to relubing and end-for-ending. Best of all, Samson synthetics significantly outlasts wire in most applications. For some applications, like deepwater exploration and production in the offshore industry, they are an enabling technology that makes working at extreme depths a reality. Samson: Where technology and people make the difference But the biggest single factor in successfully exploiting these new technologies is our people. From R&D to the manufacturing floor, from the offices to the shipping docks, it is the people of Samson that make the real difference. Real world solutions for real world problems Samson sales and application engineers are the link that allows our customers to be certain they are getting the best. Experienced, knowledgeable application engineers work directly with our customers to specify existing products From R&D to the that meet the challenge, or to determine specifications for new products and configurations that can be produced to provide the level of service the manufacturing floor, application demands. from the offices to the shipping docks, it is the people of Samson that make the real difference. Sales and application engineers are involved before the sale and after delivery, ensuring maximum service life for our products. They assist with installations and train crews on maintenance, splicing and inspection. Periodic onboard inspections provide valuable information on use, residual strengths, and continuously updates retirement criteria. The Samson team is in the field to ensure our customers that they are using the safest, most reliable products in the cordage industry. It s this commitment to providing the best products and service possible that we call The Samson Advantage. 3

4 Samson Research & Development SAMSON ROPES ARE BUILT Samson has more experience designing and developing strength members with Samson has dedicated more resources than any other cordage manufacturer to the continued development of high performance synthetic rope products. 4

5 TO MEET REAL WORLD CHALLENGES Dyneema than any other cordage manufacturer in the world Using the highest performance synthetic fibers in unique constructions, Samson engineers have constantly reinvented cordage technology. A tradition of strength, a legacy of innovation Since its inception in 1878, Samson has been committed to technological leadership in the design and manufacturing of innovative cordage products. Using the highest performance synthetic fibers in unique constructions, Samson engineers have constantly reinvented cordage technology. We continue to expand our technology, working closely with industry to identify new applications and with suppliers to explore new fibers and materials. Samson then develops specialized constructions and coatings to maximize effectiveness, increase service life, and make the workplace safer and more efficient. Samson R&D: The link between technology and practical application The key to all these developments is Samson s continuous commitment to research and development. Today, Samson s R&D organization is the most advanced and best equipped in the industry. Headed by Dr. Rafael Chou, the R&D team is comprised of chemical and mechanical engineers, polymer scientists, nanotechnologists, material science specialists, chemists, rope designers and industrial engineers. They are all backed up with testing, quality control and splicing specialists. They are equipped with the latest technology, including the most advanced synthetic rope tensile tester in the world, capable of testing break strengths up to 1.1 million pounds. The results speak for themselves All this technology results in the development of products that make real differences onboard. Recent new product introductions include patented products like reduced recoil ropes and high strength marine ropes using DPX fiber technology. Reduced recoil ropes are designed to fail in stages, dissipating the energy of the parting line and reducing the dangerous snap back of the parted ends, making work sites safer. Samson's patented use of DPX fiber gives our high performance ropes better grip on deck hardware like capstans and H-bitts. That means, among other applications, tug operators using H-bitts can now take full advantage of the easy handling, lightweight, ultra high strength tug lines made with Dyneema. The 24/7 link between Samson and you All our technical papers, full product descriptions and specifications, splicing, handling and inspection information is available for perusing and downloading at After all, it s all part of The Samson Advantage. COMMERCIAL CM MARINE About this Catalog: Classification of Rope Products by Class I and Class II We have divided our product offering into two classes of ropes. Class II ropes are produced from high performance synthetic fibers that are designed as potential replacements for wire rope applications. Class I ropes are constructed of traditional synthetic fibers that are not designed as alternative products for wire rope replacement. A detailed description of Class II and Class I ropes is located in the Glossary of Terms on pages The designation of Class II and Class I ropes to a specific product should also be used in selecting the appropriate Samson splice and testing procedure for that product. Table of Contents: Application Highlights / Comparative Data > Research & Development > Mooring Lines > Chafe Gear > Tug Applications > Quantum-8 Case Study > Tug Assist/Maneuvering > Offshore Applications > Inland River Applications > Commercial Fishing Applications High Performance Ropes (Class II) > AmSteel -Blue [872] > Neutron -8 [867] > Force-8 [871] > Proton -8 [830] > Quantum-8 [863] > Quantum-12 [873] > Turbo-75 [864] > DPX -75 [865] > Turbo-EPX [886] > Validator-12 [446] > Tech-12 [890] > TrawlSteel-Blue [879] > Mooring Defender [859] Standard Performance Ropes (Class I) Round Plait: > RP-12 SSR-1200 [416] > RP-12 Polyester [402] > RP-12 Ultra Blue [333] Double Braid: > Stable Braid [506/806] > Super Strong [472] STRAND: > SSR [263] > Ultra Blue-8 [252] > Pro-Set-8 [256] > Premium Polyester-8 [258] Strand: > SSR [220] > Ultra Blue-3 [130] > Pro-Set-3 [170] > SSR-301R [226] Accessories / Technical Support > Samthane Coatings > Splicing Tools & Instructions > Rope Hardware > Fiber Characteristics & Rope Constructions > Elongation Components & Definitions > Testing Methods > Rope Handling > Bending Radius & Winch Data > Winch & Sheave Data > Standards for Strength & Determination > Residual Strength > Rope Inspection & Retirement > Glossary of Terms > Samson Rope Website

6 Mooring Applications HIGH PERFORMANCE MOORING LINES Samson high performance synthetic mooring lines are the proven alternative to wire rope Replacing wire rope with Samson high performance, lightweight synthetics adds up to significant savings in time and money > Size-for-size replacement of wire rope > As strong, or stronger than the wire it replaces > 1/7th the weight of wire > 60% fewer crew required per mooring station > Reduces weight-related injuries > Lasts at least 3 times longer than wire > Less wear and tear on deck hardware > Reduced maintenance, no relubing > Simple end-for-ending, no additional equipment required > Simplifies splicing for most constructions Plus, you get the samson advantage our customers call it peace of mind > On-site sales and engineering staff to: Design custom engineered solutions Perform onboard inspections Recommend hardware options Provide training in splicing, inspection and setting retirement guidelines > Complete customized rope manuals and technical documents 6

7 APS MOORING APPLICATIONS Class II AmSteel -Blue PAGE 22 Quantum-8 PAGE 26 Quantum-12 PAGE 27 Turbo-75 PAGE 28 Lightweight, ultra-strong mooring lines reduce operating costs, save time in mooring operations, and improve safety DPX -75 PAGE 29 Turbo-EPX PAGE 30 When compared to wire rope, Samson mooring lines made with Dyneema are, size-for-size, just as strong or stronger. The comparison ends there. Weighing in at less than 1/7th the weight of wire, Samson ropes reduce crew requirements for each mooring station and have been proven to reduce the time required for mooring operations by 2/3. Lower incidents of work-related back injuries have been documented. With no fishhooks from broken strands, and dramatically reduced recoil, crew safety is further enhanced. Add in a longer service life of 4 to 10 years with greatly reduced maintenance, and any comparison to wire is pretty much eliminated. All this has been proven in actual field trials over the past 10 years. Jacketed, non-jacketed, 12-strand or 8; there s a Samson high performance line engineered for every mooring application and any equipment configuration Samson has designed a full range of mooring lines with the option of either jacketed or non-jacketed configurations; from AmSteel -Blue, a 12-strand single braid made with 100% Dyneema, the strongest mooring line available, to Turbo-EPX, a Dyneema core/polyester cover construction for enhanced abrasion and heat resistance and great handling on mooring winches. Each is engineered to provide the highest strength, longest service life and safest handling by the company with the most experience with high performance fibers in the cordage industry. While technology and engineering are critical, it s our service that really makes a difference Samson doesn t stop at merely creating a better product; we pride ourselves on providing the best service in the business both before and after the sale. Our sales and application engineers come onboard to assess your situation and handling equipment, make recommendations on appropriate products, and assist with installation to ensure your mooring lines will perform as expected. We follow up with full training in maintenance, splicing, and inspection for your crew. In addition, we develop an ongoing program of testing and inspections to determine a customized retirement schedule to make certain your mooring lines are always safe and well maintained. It is this level of service that is at the heart of The Samson Advantage. Mooring Defender PAGE 33 Class I Premium Polyester-8 PAGE 43 RP-12 Polyester PAGE 36 RP-12 Ultra Blue PAGE 37 SSR PAGE 40 Stable Braid PAGE 38 Super Strong PAGE 39 Ultra-Blue-8 PAGE 41 Pro-Set-8 PAGE 42 Chafe Protection High Performance Chafe Solutions PAGES

8 Mooring Applications COMPARATIVE DATA Primary Mooring Line Comparison AmSteel -Blue Force-8 Turbo-75 Wire Rope Wire Rope 6 x 36 W.S.IRWC 6 x 36 W.S.IRWC IPS-Grade B EIPS-Grade C Samson vs. wire by size, strength and weight Size 28mm [1-1/8 in.] 32mm [1-5/16 in.] 30mm [1-1/4 in.] 28mm [1-1/8 in.] 28mm [1-1/8 in.] SRT* MBS 60.4 MT 64.7 MT 61.2 MT 55.2 MT 59.0 MT Kg/100 M 47.5 Kg 56.4 Kg 57.3 Kg Kg Kg Size 36mm [1-1/2 in.] 40mm [1-5/8 in.] 40mm [1-5/8 in.] 36mm [1-1/2 in.] 36mm [1-1/2 in.] SRT* MBS 93.0 MT 96.7 MT MT 91.2 MT 97.6 MT Kg/100 M 76.9 Kg 87.0 Kg 99.7 Kg Kg Kg Size 40mm [1-5/8 in.] 44mm [1-3/4 in.] 44mm [1-3/4 in.] 40mm [1-5/8 in.] 40mm [1-5/8 in.] SRT* MBS MT MT MT MT MT Kg/100 M 97.0 Kg Kg Kg Kg Kg Primary Mooring Line Strength Comparison Strengths shown in Metric Tonnes Size 44mm [1-3/4 in.] 48mm [2 in.] 48mm [2 in.] 44mm [1-3/4 in.] 44mm [1-3/4 in.] SRT* MBS MT MT MT MT MT Kg/100 M Kg Kg Kg Kg Kg * Spliced strength Size Diameter AmSteel -Blue Force-8 DPX -75 Proton -8 Inches millimeters SRT MBS* ISO/BS EN919 SRT MBS* ISO/BS EN919 SRT MBS* ISO/BS EN919 SRT MBS* ISO/BS EN /8 in. 28mm 60.4 MT 67.1 MT 50.9 MT 56.6 MT 51.1 MT 56.7 MT 31.3 MT 34.7 MT 1-1/4 in. 30mm 67.5 MT 75.0 MT 57.6 MT 64.0 MT 61.2 MT 68.0 MT 39.4 MT 43.8 MT 1-5/16 in. 32mm 75.2 MT 83.6 MT 64.7 MT 71.9 MT 67.4 MT 74.8 MT 47.2 MT 52.4 MT 1-3/8 in. 34mm 83.9 MT 93.2 MT 69.0 MT 76.6 MT 75.5 MT 83.9 MT 48.8 MT 54.3 MT 1-1/2 in. 36mm 93.0 MT MT 80.0 MT 88.9 MT 85.7 MT 95.3 MT 56.7 MT 63.0 MT 1-5/8 in. 40mm MT MT 96.7 MT MT MT MT 63.5 MT 70.6 MT 1-3/4 in. 44mm MT MT MT MT MT MT 86.1 MT 95.7 MT * Spliced strength Secondary Mooring Line Strength Comparison Strengths shown in Metric Tonnes Quantum-12 Proton -8 RP-12 SSR-1200 Size Diameter Inches MILLIMETERS SRT MBS* ISO/BS EN919 SRT MBS* ISO/BS EN919 SRT MBS* ISO/BS EN /8 in. 40mm 98.0 MT MT 63.5 MT 70.6 MT 29.4 MT 32.7 MT 1-3/4 in. 44mm MT MT 86.1 MT 95.5 MT 34.3 MT 38.1 MT 2 in. 48mm MT MT MT MT 41.6 MT 46.3 MT 2-1/8 in. 52mm MT MT MT MT 49.0 MT 54.4 MT 2-1/4 in. 56mm MT MT MT MT 56.7 MT 63.1 MT 2-1/2 in. 60mm MT MT MT MT 64.9 MT 72.1 MT 2-5/8 in. 64mm MT MT MT MT 71.4 MT 79.4 MT 2-3/4 in. 68mm MT MT MT MT 83.3 MT 92.5 MT 3 in. 72mm MT MT MT MT 89.8 MT 99.8 MT * Spliced strength 8

9 APS MOORING COMPARATIVE DATA P-7 Mooring Pendants Product Code: 709 Samson suggests the use of braided Mooring Master P-7 (100% polyester) for primary mooring line pendants. The efficient design of P-7 pendants allows significant size and weight advantages over conventional 8-braid pendants; higher strengths can allow down-sizing. P-7 mooring pendants meet the recommendations of OCIMF. Mooring Master P-7 P-7 mooring pendants provide the energy absorption to minimize ship excursion in a mooring system, while holding up to the abuse of being dragged on piers and working on rough mooring hooks, cleats and bollards. P-7 has braided polyester strength members covered by a heavy-duty polyester jacket. The core provides the superior flex-fatigue resistance for maximum service life, while the polyester jacket provides the protection necessary in rough working environments. P-7 pendants are available in single leg and strop configurations and can be connected to the primary mooring line by cow-hitching the soft eyes or with a mandel shackle. P-7 Single Leg Pendants Standard length is 11m (over all length), with a 2m soft eye one end and a 1m soft eye the other end. The vertex and splice area are urethane coated for added wear protection. P-7 Strop Pendants Standard length is 11m (over all length), with 2m and 1m soft eyes formed by way of lashings. The body of the strop is lashed together 3m in from each eye lashing. Mooring Master P-7 Strength and Weight Information Size Diameter INCHES millimeters Weight Per 100 Ft. POUNDS Weight Per 100m KILOGRAMS SRT Average Strength POUNDS SRT Minimum Strength POUNDS SRT Average Strength KILOGRAMS SRT Minimum Strength KILOGRAMS SRT MBS* metric tonnes ISO/BS EN919 MBS metric tonnes Grommet ISO Minimum metric tonnes 1-1/2 in. 36mm 73.6 lbs Kg 101,000 lbs. 90,900 lbs. 45,800 Kg 41,200 Kg 41.2 MT 45.8 MT 73.3 MT 1-5/8 in. 40mm 85.8 lbs Kg 117,000 lbs. 105,000 lbs. 53,100 Kg 47,800 Kg 47.8 MT 53.1 MT 84.9 MT 1-3/4 in. 44mm 98.8 lbs Kg 137,000 lbs. 123,000 lbs. 62,100 Kg 55,900 Kg 55.9 MT 62.1 MT 99.4 MT 1-7/8 in. 46mm lbs Kg 156,000 lbs. 140,000 lbs. 70,800 Kg 63,700 Kg 63.7 MT 70.8 MT MT 2 in. 48mm lbs Kg 168,000 lbs. 151,000 lbs. 76,200 Kg 68,600 Kg 68.6 MT 76.2 MT MT 2-1/8 in. 52mm lbs Kg 201,000 lbs. 181,000 lbs. 91,200 Kg 82,100 Kg 82.1 MT 91.2 MT MT 2-1/4 in. 56mm lbs Kg 226,000 lbs. 203,000 lbs. 103,000 Kg 92,300 Kg 92.3 MT MT MT 2-3/8 in. 57mm lbs Kg 252,000 lbs. 227,000 lbs. 114,000 Kg 103,000 Kg MT MT MT 2-1/2 in. 60mm lbs Kg 279,000 lbs. 251,000 lbs. 127,000 Kg 114,000 Kg MT MT MT 2-5/8 in. 64mm lbs Kg 307,000 lbs. 276,000 lbs. 139,000 Kg 125,000 Kg MT MT MT 2-3/4 in. 68mm lbs Kg 335,000 lbs. 302,000 lbs. 152,000 Kg 137,000 Kg MT MT MT 2-7/8 in. 69mm lbs Kg 363,000 lbs. 327,000 lbs. 165,000 Kg 148,000 Kg MT MT MT 3 in. 72mm lbs Kg 398,000 lbs. 358,000 lbs. 181,000 Kg 162,000 Kg MT MT MT * Spliced strength Note: Grommet ISO strength column information for P-7 Strops only. Tenex-TEC Secondary Mooring Line Stopper Product Code: 825 Tenex-Tec is a 12-strand Samthane coated, high tenacity polyester single braid that offers high strength, low stretch and outstanding abrasion resistance. Tenex-Tec makes an excellent mooring line stopper because, during its initial use, the design will flex-conform to the specific mooring line rope construction and improve its holding capability. As Tenex-Tec wears, its coefficient of friction increases even more. It should only be used with synthetic fiber secondary mooring lines, or mooring lines not on winches. Tenex-TEC should not be used on high performance synthetic ropes that have external outer fibers with a low coefficient of friction material such as Dyneema. Stopper Strength Comparison Size Weight SRT ISO/BS EN919 Size Weight SRT ISO/BS EN919 Diameter Per 100 Ft. MBS* Strength Diameter Per 100 m MBS* Strength INCHES INCHES POUNDS POUNDS MILLIMETERS KILOGRAMS METRIC Tonnes METRIC Tonnes 1-1/4 in in. 55,800 lbs. 62,000 lbs. 30mm 81.8 Kg 25.3 MT 28.1 MT * Spliced strength 9

10 Innovative Chafe Protection Samson has the most innovative chafe solutions to extend the life of your synthetic ropes Wherever chafe can effect performance, Samson chafe protection solutions will ensure a safe and successful operation. Protecting ropes from abrasion and cutting significantly increases service life. 10

11 MOORING TUG OFFSHORE INLAND RIVER COMMERCIAL FISHING CHAFE SOLUTIONS Dynalene CODE 975 > Fixed or adjustable for easy positioning > Lightweight, floats > Easy inspection without removing > Field repairable > Excellent durability > Made with Dyneema High performance chafe protection tough enough for the most demanding situations Samson high performance synthetic ropes have been engineered to provide ease of handling, extreme strength, and long service life. Dyneema, a major component in many of Samson s high performance ropes, is the most cut resistant fiber. While properly designed and engineered ropes take maximum advantage of this resistance, in the real world environment of the commercial marine industry, protecting ropes from abrasion and cutting significantly increases service life. Chafe protection engineered to combat cutting and abrasion Samson has committed substantial research and development resources to designing a line of chafe protection products that maximizes the service life of our ropes. The result is a family of products perfectly suited to combat the causes of cutting and abrasion encountered in offshore, mooring and tug operations. Because each application has its own characteristic requirements, Samson has developed a full range of options to protect your investment and ensure the longest service life for your working ropes. All chafe options can be factory-installed on your ropes prior to shipment from our plants, or are available in bulk for field installation. When replacing wire ropes with synthetics, it is important to prepare or repair the surfaces of deck equipment damaged by abrasion. Chocks, fairleads, bollards, bitts or other hardware contacting the rope need to be smooth and free of rust to ensure your ropes longest life. A Samson representative is available to visit your vessel to assess the hardware condition and advise on proper preparation to maximize the service life of your ropes. That s The Samson Advantage: high performance, reliable products, innovative engineering and the best customer service in the industry. ADDITIONAL CHAFE PROTECTION PRODUCTS: Pro-Gard Eye Protector CODE 973 Pro-Gard CODE 974 Pro-Moor CODE 977 IFH Chafe-Guard CODE Cordura Chafe Protector CODE R6 DC Gard CODE 706 > Fixed or adjustable for easy positioning > Light and flexible, floats > Can be removed for rope inspection > Cut resistant > Superior durability > Made with Dyneema > PATENT PENDING DC Moor-Gard CODE 706 > Fixed or adjustable for easy positioning > Light and flexible, floats > Can be removed for rope inspection > Cut resistant > Superior durability > Made with Dyneema > PATENT PENDING Technolene CODE 976 > Fixed or adjustable for easy positioning > Excellent heat resistance for high heat environments / applications > Easy to inspect without removing > Excellent durability and cut resistance > Made with Technora 11

12 Tug Applications HIGH PERFORMANCE TUG WORKING LINES Few environments challenge rope as much as modern tug operations SAMSON S DPX FIBER TECHNOLOGY: Inherently cut and chemical resistant, industry leading 12-strand braids such as AmSteel -Blue typically have a very low coefficient of friction (COF), limiting their use in applications that require the use of capstans or bitts. The engineers in Samson s R&D department developed an entirely new method of combining the high heat resistance and higher COF of polyester with the high strength, lightweight, and high cut and abrasion resistance of Dyneema. Samson s patented use of DPX fiber greatly increases the coefficient of friction to provide the grip of polyester with the ultimate strength of Dyneema. DPX fiber technology is used in popular winch-based marine ropes like Quantum-8 and in the 12-strand construction of Quantum-12. DPX -75 incorporates DPX fiber technology in the cover of a jacketed product. Tug operators using H-bitts and capstans can now take full advantage of the strength and ease of handling of ropes made with Dyneema. 12

13 APS TUG APPLICATIONS Class II AmSteel -Blue PAGE 22 Neutron -8 PAGE 23 Proton -8 PAGE 25 Force-8 PAGE 24 Samson s high performance synthetics stand up to the challenge There are very few ropes in the commercial marine environment that are used with the frequency of a tugs working lines. Add to this the physical stress and abrasion that s produced by the very nature of their work, and you ve got one of the most demanding situations a rope can face. Samson has designed a family of ropes that face up to these demands day in and day out. Lightweight, high strength Samson synthetic ropes engineered with Dyneema fiber meet these tough demands for some of the world s most critical tug operators. Samson high performance synthetics are a safer and more cost-effective option Lightweight, high strength Samson ropes are a safer and more cost-effective alternative to either heavy, large diameter traditional working lines or wire rope. Lightweight, easy handling lines mean reduced crew demands and fewer workrelated injuries. There are no fishhooks to worry about, and once your deck equipment is faired, maintenance is minimal. Easier handling also means faster tie-ups, and the ability to stand down even quicker. The overall effect is reduced costs and more efficient operations. It has been proven in actual field tests for over 10 years. Whether you work from a winch or H-bitts, there s a Samson rope made specifically for your application Samson s patented use of DPX fiber incorporates the strength of Dyneema with the high coefficient of friction that polyester fiber provides. We ve put that technology to work in two patented constructions Quantum-8 and Quantum-12 designed specifically for the needs of working tugs using H-bitts. The enhanced grip allows these high performance lines to work as efficiently as polyester where capstans and H-bitts are in use, but also function equally well from winches. And, of course, they all come standard with The Samson Advantage The latest in fiber technology, high performance products, state-of-the-art manufacturing, and over 125 years of experience all add up to real value for our customers. When you combine these with our world-class service experienced sales and application engineers that help solve real world problems with unique cordage products you see why we call it The Samson Advantage. Quantum-12 PAGE 27 Quantum-8 PAGE 26 Class I Premium Polyester-8 PAGE 43 RP-12 Polyester PAGE 36 RP-12 SSR-1200 PAGE 35 RP-Ultra Blue PAGE 37 SSR PAGE 40 SSR PAGE 40 Stable Braid PAGE 38 Ultra Blue-3 PAGE 41 Ultra Blue-8 PAGE 41 SSR-301R PAGE 43 Chafe Protection High Performance Chafe Solutions PAGES

14 Samson Engineered Solutions THE SAMSON ADVANTAGE AT WORK Quantum-8 lasts 10 to 12 times longer for SSTP in Indonesia Quantum-8 lasts 10 to 12 times longer than the traditional synthetics we had tried over the previous five years this brings about a huge savings in time previously incurred for rope renewals, and the reduced diameter for the same strength of conventional ropes have made mooring/unmooring a lot easier and faster. Armindo Gomes Technical Director, Canada Steamship Lines (Asia) CSL (Asia) Project Notes: Customer: Canadian Steamship Lines (Asia) Vessel Type: SSTP (Semi Submersible Trans-shipment Platform) Problem: Synthetic ropes used to position and range barges while offloading failed after only 200 to 300 hours Hardware: Four 40MT traction winches Solution: Quantum-8 replaced the synthetic lines on all four winches Outcome: Quantum-8 provides 2,500 to 3,000 hours of service life before retirement Quantum-8: Construction: Patented 8-strand single braid with DPX fiber technology Fibers: Dyneema SK-75 and polyester Technology: Samson DPX fiber incorporated in surface strands for grip, abrasion and cut resistance Specific Gravity: 1.00 (floats) Applications: > Wire replacement > Secondary mooring lines > Barge and dredge working lines > Tractor tug winch lines > Heavy lift slings > Rig tow lines > Lowering and lifting lines 14

15 QUANTUM-8 Q-8 CASE STUDY Quantum-8 takes on a high fatigue stress job We talk a lot about our application and sales engineers. It is one of the things that sets Samson apart from other manufacturers of cordage products. This is a real world example of application engineering at its best. Canadian Steamship Lines (CSL) Asia has been operating a Semi Submersible Trans-shipment Platform (SSTP) for the past seven years at Muara Pantai in Tanjung Redeb, Berau, Indonesia. The platform is stationed 10 miles offshore, and receives barges from the mine operation, offloading the coal to the waiting capesize vessels. The 6,000MT to 10,000MT barges are ranged over a 60 meter span within the docking space of the SSTP via four 40MT winches located at each corner of the platform. Each time a barge is offloaded, another barge is docked and ranged until the bulk carrier is fully loaded. The SSTP then moves via its own power to another bulk carrier awaiting loading. SSTP loading a bulk carrier With three to four barges docked and ranged daily, the ropes used in this operation are subjected to very high fatigue stresses. Over the past five years, they had tried various types of synthetic ropes, yet the longest period before failure was between 200 and 300 hours of operation. A meeting between John Morton, Samson sales manager and Mr. Armindo Gomes, technical director for CSL (Asia) resulted in a test of Quantum-8, Samson s patented 8-strand construction using DPX technology a blend of Dyneema fibers and spun polyester fiber that provides high strength, lightweight and excellent grip for use on winches, capstans and bitts. Favorable test results made the decision to purchase Quantum-8 an easy one. The Samson Advantage in action John Morton oversaw the installation of the ropes and trained the crew in use, maintenance, inspection and splicing. Over the last two years of operation, Quantum-8 has been in service for 2,500 to 3,000 hours. The reduced diameter compared to the ropes previously in use means quicker, safer mooring/unmooring operations. With barges being docked and cargo trans-shipped at a rate of three to four a day, the increase in productivity has been dramatic. Installation of Quantum-8 SSTP offloads three to four barges per bulk carrier the offer of your Quantum-8 rope for trials really turned our operation around. We have used your ropes for almost two years now, and are pleased to state that Quantum-8 lasts 10 to 12 times longer than the traditional synthetics we had tried over the previous five years this brings about a huge savings in time previously incurred for rope renewals, and the reduced diameter for the same strength of conventional ropes have made mooring/unmooring a lot easier and faster. I would not hesitate to recommend this rope to any operator. Armindo Gomes, BEng, MMgmt (project), MBA Technical Director, Canada Steamship Lines (Asia) With the success of this installation, Samson has recently supplied another set of Quantum-8 winch lines to CSL for a new SSTP now working in Melbourne, Australia trans-shipping iron ore. then moves on its own power to next carrier awaiting load 15

16 Tug Assist / Maneuvering Lines When asked what has been the most significant technical advance to impact tug efficiency by Maritime Reporter & Engineering News, Tom Crowley, Jr. replied: Synthetic rope it is as strong as wire, it floats, and it has enabled us to do some amazing things the tanker escorting business is built around these new ropes, as there s no way you could do it without them, he summarized. Samson offers specific products to meet the needs of varying tug designs and bollard pulls for conventional or tractor tugs assist/maneuvering lines that are worked off drums or H-bitts. Our Sales and Engineering groups can assist by supplying detailed engineered solutions to improve rope performance and safety. When working with H-bitts: Slippage and the effect of heat build up are critical factors when working with H-bitts. The main rope for use on H-bitts should have an outer working surface of polyester to provide the holding friction and heat protection necessary when surging the rope. To minimize the working line weight and maximize the wear of the shipboard connecting end, a floating lightweight AmSteel -Blue pendant can be utilized. For drum working lines: Since gripping and heat resistance are not as critical, the higher strength and lighter weight of an all Dyneema fiber rope provide the best performance. These ropes are also used with a replaceable connecting pendant to insure maximum service life of the main working line. Drum Working Line Comparisons Size Size Quantum-8 AmSteel -Blue Neutron -8 Diameter circumference Per 100 M SRT MBS* Per 100 M SRT MBS* Per 100 M SRT MBS* Inches Millimeters Inches Millimeters KILOGRAMS METRIC Tonnes KILOGRAMS METRIC Tonnes KILOGRAMS METRIC Tonnes 2 in. 48mm 6 in. 144mm Kg MT Kg MT Kg MT 2-1/4 in. 56mm 7 in. 168mm Kg MT Kg MT Kg MT 2-5/8 in. 64mm 8 in. 192mm Kg MT Kg MT Kg MT 3 in. 72mm 9 in. 216mm Kg MT Kg MT Kg MT 3-1/4 in. 80mm 10 in. 240mm Kg MT Kg MT Kg MT * Spliced strength Strengths shown in Metric Tonnes H-bitt Working Line Comparisons Strengths shown in Metric Tonnes Diameter circumference Per 100 M SRT MBS* Per 100 M SRT MBS* Per 100 M SRT MBS* Inches Millimeters Inches Millimeters KILOGRAMS METRIC Tonnes KILOGRAMS METRIC Tonnes KILOGRAMS METRIC Tonnes 2 in. 48mm 6 in. 144mm Kg 41.6 MT Kg MT Kg MT 2-1/4 in. 56mm 7 in. 168mm Kg 56.7 MT Kg MT Kg MT 2-5/8 in. 64mm 8 in. 192mm Kg 71.4 MT Kg MT Kg MT 3 in. 72mm 9 in. 216mm Kg 93.9 MT Kg MT Kg MT 3-1/4 in. 80mm 10 in. 240mm Kg MT Kg MT Kg MT * Spliced strength Size Size RP-12 SSR-1200 Proton -8 Quantum

17 Maneuvering Line Pendants APS TUG APPLICATIONS Pendants To ensure maximum service life of tug assist and maneuvering lines, Samson recommends the use of a single leg or strop pendant. The pendants will take the abuse of rough undressed chocks and bitts aboard the assisted vessel and allow the main assist lines to be maintained. The pendants can be connected by way of cow-hitching the 1 meter soft eye of the single leg or the strop to the main line soft eye. The strop configuration can be readjusted to share the wear over the strop length. To protect the pendants, our Pro-Gard Eye Protectors for the pendant eyes can be easily installed in the field or at time of order refer to pages AmSteel -Blue Single-Leg Pendants Single Leg Pendant configuration: Standard overall length is 15.2m (50 ft.) with a 1m (3 ft.) soft eye, for mating to main line, and a 2m (6 ft.) soft eye for shipboard connection. Eye-to-eye single leg connection. Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per Unit MBS* Diameter Per Unit MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 1-1/2 in. 4-1/2 in lbs. 205,000 lbs. 36mm 17.7 Kg 93.0 MT MT 1-5/8 in. 5 in lbs. 255,000 lbs. 40mm 23.1 Kg MT MT 1-3/4 in. 5-1/2 in lbs. 302,000 lbs. 44mm 27.7 Kg MT MT 2 in. 6 in lbs. 343,000 lbs. 48mm 33.1 Kg MT MT 2-1/8 in. 6-1/2 in lbs. 411,000 lbs. 52mm 40.4 Kg MT MT 2-1/4 in. 7 in lbs. 484,000 lbs. 56mm 46.3 Kg MT MT 2-1/2 in. 7-1/2 in lbs. 529,000 lbs. 60mm 57.2 Kg MT MT 2-5/8 in. 8 in lbs. 595,000 lbs. 64mm 65.8 Kg MT MT 2-3/4 in. 8-1/2 in lbs. 662,000 lbs. 68mm 75.3 Kg MT MT 3 in. 9 in lbs. 748,000 lbs. 72mm 84.8 Kg MT MT 3-1/4 in. 10 in lbs. 906,000 lbs. 80mm Kg MT MT * Spliced strength AmSteel -Blue Strop Pendants Single Leg Strop configuration: Standard overall length is 15.2m (50 ft.). Strop strengths are 1.6 x single leg rope strengths. Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per Unit MBS* Diameter Per Unit MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES Strop to main line connection. 1-1/4 in. 3-3/4 in lbs. 238,000 lbs. 30mm 18.6 Kg MT MT 1-5/16 in. 4 in lbs. 265,000 lbs. 32mm 21.8 Kg MT MT 1-1/2 in. 4-1/2 in lbs. 328,000 lbs. 36mm 27.2 Kg MT MT 1-5/8 in. 5 in lbs. 408,000 lbs. 40mm 35.4 Kg MT MT 1-3/4 in. 5-1/2 in lbs. 482,000 lbs. 44mm 42.2 Kg MT MT 2 in. 6 in lbs. 548,000 lbs. 48mm 50.4 Kg MT MT 2-1/8 in. 6-1/2 in lbs. 658,000 lbs. 52mm 60.8 Kg MT MT 2-1/4 in. 7 in lbs. 774,000 lbs. 56mm 69.4 Kg MT MT 2-1/2 in. 7-1/2 in lbs. 847,000 lbs. 60mm 84.4 Kg MT MT 2-5/8 in. 8 in lbs. 953,000 lbs. 64mm 97.1 Kg MT MT * Spliced strength 17

18 Offshore Applications HIGH PERFORMANCE SYNTHETIC ROPE SOLUTIONS When you need to go deep wire and cable won't get you there, OFFSHORE APPLICATIONS: > Mooring tethers > Working lines > Heavy lift slings > Rig tow lines > Wire replacement winch lines > Lowering and lifting lines > Messenger pick-up lines > Seismic towing array 18

19 you need The Samson Advantage APS OFFSHORE APPLICATIONS Class II AmSteel -Blue PAGE 22 Mooring Defender PAGE 33 Neutron -8 PAGE 23 Proton -8 PAGE 25 Quantum-8 PAGE 26 Samson high performance synthetics meet the newest demands of the offshore industry Quantum-12 PAGE 27 Deepwater exploration and operation have become commonplace in today s offshore industry. Samson high performance synthetics provide the enabling technology that make reaching these new depths a reality. At 1/7th the weight of similar strength wire, these products keep deck loads low, reduce strain on winches, provide easier handling and a margin of safety that is unrivalled by traditional technologies. Lightweight ropes require fewer crew for handling and significantly reduce the time required for most operations. Deepwater lowering and lifting lines, mooring tethers, anchor retrieval lines, riser winch lines, lifting slings, tow lines and bridles all benefit from technology engineered by Samson to meet the needs of this demanding industry. And with production and engineering staff strategically located near the Gulf of Mexico, we provide service that is second to none. Critical applications depend on superior engineering With the most advanced R&D department in the business, our product line is positioned to lead the way in reaching the needs of the offshore industry. But there are always problems best solved by product designed on a project-byproject basis. Our staff of application and sales engineers works directly with customers to meet those needs with products designed, manufactured, and tested to solve critical offshore problems. Samson engineers developed custom solutions for riser installation in the largest riser tower yet installed (the Enfield riser tower in Australia), and are engineering riser hold back tethers for sub-sea installations. But it s not just the custom applications that get Samson engineers on-site They re on hand for installations and crew training in maintenance, splicing and inspection procedures. Samson s professionals provide on-site inspections and lab testing to update and assess retirement criteria to ensure the longest service life and safety of all our products. It s all part of The Samson Advantage the most complete package of technology, experience, state-of-the-art manufacturing, and customer service in the business. Turbo-75 PAGE 28 Class I Stable Braid PAGE 38 Super Strong PAGE 39 Ultra Blue-8 PAGE 41 Chafe Protection High Performance Chafe Solutions PAGES

20 Inland River Applications HIGH PERFORMANCE SYNTHETIC ROPE SOLUTIONS Keeping commerce moving on inland waterways is a tough job for ropes But Samson high performance synthetics are up to the challenge Working ropes for the U.S. Inland Waterways provide some of the most demanding applications for modern rope technology. These lines see more action than most in the commercial marine markets, and bear the responsibility for keeping commerce moving on our waterways. Samson meets the challenge with synthetic rope products that outperform wire and are at least as strong, if not stronger than the wire they replace. But strength is only part of the story. The bottom line is what does it do to your bottom line? Samson high performance synthetic ropes are lightweight and easy to handle. Making up and knocking down is quicker and safer. AmSteel -Blue is, size for size, as strong as wire, yet it floats. That means crews responsible for handling ropes can be reduced. Lighter weight also means fewer workrelated injury claims. The lack of fish-hooks from broken strands further reduces injuries. Modern synthetics also require little or no maintenance when properly installed. All deck hardware should be faired and repaired when the new rope is installed; after that, with reasonable care and good chafe gear, maintenance is minimal. There s no re-lubing and end for ending is an easy operation requiring no additional equipment. Splicing for most products is a simple process that can be accomplished in the field without mechanical equipment. Best of all, with proper care, the service life is as much as three times that of wire. Add it all up and your bottom line just got a lot better. Best of all, Samson offers a choice non-jacketed or jacketed for wire rope replacement; and the longest wearing locklines in the business Rather than a single line that promises to replace all your wire, Samson offers a full range of products engineered to perform in your situation and with the configuration of your vessels. Patented constructions using Samson s DPX technology are designed specifically for use on H-bitts and capstans where grip is a major consideration. We ve designed double braids and single braids that excel working from winches. Even our 3-strand lockline takes full advantage of the latest technology to deliver a line that outperforms all others in the locks. And if that isn t enough, we also offer the best advice in the field Experienced application and sales engineers that know both the ropes and the industry can assist in determining the best product for your working routines. They also assist with installations, advise on proper fairing of existing equipment, train crews in splicing and inspecting the ropes to ensure the longest service life. It s all part of The Samson Advantage. 20

21 HIGH PERFORMANCE SYNTHETIC ROPE SOLUTIONS Commercial Fish Applications When it comes to abusive, demanding and punishing environments for rope Few markets can dish it out like the fishing grounds of the North Pacific and Bering Sea These are some of the most productive fishing grounds in the world. They are also some of the most unforgiving and punishing seas on earth. If a rope can stand up to the constant usage and physical abuse of these fisheries, it can withstand pretty much anything. Many of our products prove themselves here before they are used for other commercial marine applications. As if the sea states and weather weren t enough, ropes here are spooled from winches, run off capstans, retrieved while underway, pulled by power heads, and generally subjected to more bending fatigue, shock loading and abrasion than a decade of use as a mooring line. Replacing wire ropes for many of these applications is a tough process, but the lightweight, extreme strength and ease of handling of modern synthetics have made a believer out of many a fisherman. If TrawlSteel-Blue can withstand the constant deployment, retrieval, shock loading and sheer abuse the trawl industry can dish out, it becomes the best tested winch-based mooring line in the business. That s true for many products from the Class II high performance synthetics to the more traditional Class I ropes used in less demanding situations. Only the survivors remain in the Samson product line Samson manufactures a full line of products for commercial fishermen; from 3-strand lines of nylon, polyester and olefin fibers to the all Dyneema fiber Class II extreme performance products. So many, in fact, they are not all here in the commercial marine catalog. Visit for a complete listing of all Samson ropes for commercial fishing. Best of all, they re all backed by The Samson Advantage That s our commitment to not only provide the most innovative products, but to provide the best service in the industry. Service that includes onboard training, on-site inspections for critical applications, and full access to all our materials for splicing and technical information on the web. 21

22 12STRAND Class II AmSteel-Blue Product Code: 872 The best all-around rope made with Dyneema, a direct replacement for wire ropes proven to reduce tug assist and mooring costs FEATURES: > Uses Dyneema SK-75 > A size-for-size strength replacement for wire rope at only 1/7th the weight > Torque-free, very flexible, easy to handle > Similar elastic elongation to wire rope > Easily inspected or field spliced > Floats APPLICATIONS: > Primary vessel mooring lines > Tractor tug lines > Face and wing wires for push tugs > Emergency and seismic tow lines AmSteel -Blue is a proven cost-saving replacement for wire rope in key applications where strength, weight and safety are important. Recognized worldwide as the standard for single braid HMPE ropes, AmSteel -Blue is easily spliced and inspected. These features, with the superior wear and tension fatigue of Dyneema SK-75 fiber and Samthane coating, are combined in a torque-free 12-strand single braid design. The result is an industry leading braided synthetic rope that outlasts wire rope and has proven operator cost saving benefits. AmSteel -Blue, at only 1/7th the weight of wire, requires less committed crew for most operations, significantly reduces mooring times and tug costs, and improves crew safety. The reduced weight, high strength and low stretch also make it ideal for tug assist/maneuvering lines, resulting in quick, efficient connections and controlled response. AmSteel -Blue is proven to provide longer service life and reduced costs when compared to wire in a variety of applications. Standardized working pendants are available for mooring and tug assist lines, see pages (8 & 9). AmSteel -Blue is recommended for split drum winch applications, not recommended for use on H-bitts, capstans or cleats if surging or rendering the rope is required. DYNEEMA SK STRAND Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 3/16 in. 9/16 in. 1.0 lbs. 4,900 lbs. 5mm 1.5 Kg 2.2 MT 2.4 MT 1/4 in. 3/4 in. 1.6 lbs. 7,700 lbs. 6mm 2.4 Kg 3.5 MT 3.9 MT 5/16 in. 1 in. 2.7 lbs. 12,300 lbs. 8mm 4.0 Kg 5.6 MT 6.2 MT 3/8 in. 1-1/8 in. 3.6 lbs. 17,600 lbs. 9mm 5.4 Kg 8.0 MT 8.9 MT 7/16 in. 1-1/4 in. 4.2 lbs. 21,500 lbs. 11mm 6.2 Kg 9.8 MT 10.8 MT 1/2 in. 1-1/2 in. 6.4 lbs. 30,600 lbs. 12mm 9.5 Kg 13.9 MT 15.4 MT 9/16 in. 1-3/4 in. 7.9 lbs. 36,500 lbs. 14mm 11.8 Kg 16.5 MT 18.4 MT 5/8 in. 2 in lbs. 47,500 lbs. 16mm 15.2 Kg 21.5 MT 23.9 MT 3/4 in. 2-1/4 in lbs. 58,000 lbs. 18mm 19.8 Kg 26.3 MT 29.2 MT 7/8 in. 2-3/4 in lbs. 81,700 lbs. 22mm 29.2 Kg 37.1 MT 41.2 MT 1 in. 3 in lbs. 98,100 lbs. 24mm 32.4 Kg 44.5 MT 49.4 MT 1-1/16 in. 3-1/4 in lbs. 118,000 lbs. 26mm 40.9 Kg 53.6 MT 59.6 MT 1-1/8 in. 3-1/2 in lbs. 133,000 lbs. 28mm 47.5 Kg 60.4 MT 67.1 MT 1-1/4 in. 3-3/4 in lbs. 149,000 lbs. 30mm 53.9 Kg 67.5 MT 75.0 MT 1-5/16 in. 4 in lbs. 166,000 lbs. 32mm 62.2 Kg 75.2 MT 83.6 MT 1-3/8 in. 4-1/8 in lbs. 185,000 lbs. 34mm 67.0 Kg 83.9 MT 93.2 MT 1-1/2 in. 4-1/2 in lbs. 205,000 lbs. 36mm 76.9 Kg 93.0 MT MT 1-5/8 in. 5 in lbs. 255,000 lbs. 40mm 97.0 Kg MT MT 1-3/4 in. 5-1/2 in lbs. 302,000 lbs. 44mm Kg MT MT 2 in. 6 in lbs. 343,000 lbs. 48mm Kg MT MT 2-1/8 in. 6-1/2 in lbs. 411,000 lbs. 52mm Kg MT MT 2-1/4 in. 7 in lbs. 484,000 lbs. 56mm Kg MT MT 2-1/2 in. 7-1/2 in lbs. 529,000 lbs. 60mm Kg MT MT 2-5/8 in. 8 in lbs. 595,000 lbs. 64mm Kg MT MT 2-3/4 in. 8-1/2 in lbs. 662,000 lbs. 68mm Kg MT MT 3 in. 9 in lbs. 748,000 lbs. 72mm Kg MT MT 3-1/4 in. 10 in lbs. 906,000 lbs. 80mm Kg MT MT SPECIFICATIONS: Specific Gravity:.98 (floats) Elastic Elongation Percentage: At % of break strength 10% % 20% % 30% % Splicing Procedures Required: > Eye splice 12-Strand/Class II Rope > End for End Splice 12-Strand/Class II Rope *Spliced strength Larger sizes may be available. Contact customer service for details. 22

23 Product Neutron-8 Code: 867 The strongest rope made by Samson Patented 8x3-strand construction with a firm cross section for use on winches 8x3 Class II STRAND Neutron -8 is an excellent floating replacement for large diameter wire rope or chain. The unique, patented construction results in the highest strength to weight ratio, with reduced compression and less diving on winch drums. Neutron -8 is ideal for tractor tug working lines and a variety of specialty deep water applications where long lengths, high strength and low weight are critical. Recommended for split drum or single drum winch applications; not recommended for use on H-bitts, capstans or cleats if surging or rendering the rope is required. FEATURES: > Firm shape retention on single drum winch applications > Available in large diameter sizes and long lengths > Low stretch, high durability and easy to splice > A flexible rope made with Dyneema SK-75 > A floating wire rope replacement APPLICATIONS: > Tractor tug winch line > Specialized deep water mooring or lifting projects > First line ashore/emergency tow line > Wire rope lifting sling replacement DYNEEMA SK-75 PATENTED 8x3-STRAND SPECIFICATIONS: Specific Gravity:.98 (floats) Elastic Elongation Percentage: At % of break strength 10% % 20% % 30% % Splicing Procedures Required: > Eye splice 8x3-Strand/Class II Rope > End for End Splice 8x3-Strand/Class II Rope Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 2 in. 6 in lbs. 405,000 lbs. 48mm Kg MT MT 2-1/8 in. 6-1/2 in lbs. 441,000 lbs. 52mm Kg MT MT 2-1/4 in. 7 in lbs. 490,000 lbs. 56mm Kg MT MT 2-1/2 in. 7-1/2 in lbs. 596,000 lbs. 60mm Kg MT MT 2-5/8 in. 8 in lbs. 652,000 lbs. 64mm Kg MT MT 2-3/4 in. 8-1/2 in lbs. 711,000 lbs. 68mm Kg MT MT 3 in. 9 in lbs. 835,000 lbs. 72mm Kg MT MT 3-1/4 in. 10 in lbs. 998,000 lbs. 80mm Kg MT MT 3-5/8 in. 11 in lbs. 1,185,000 lbs. 88mm Kg MT MT 4 in. 12 in lbs. 1,422,000 lbs. 96mm Kg MT MT 4-1/4 in. 13 in lbs. 1,591,000 lbs. 104mm Kg MT MT 4-5/8 in. 14 in lbs. 1,861,000 lbs. 112mm Kg MT MT 5 in. 15 in lbs. 2,150,000 lbs. 120mm Kg MT 1,084.0 MT 5-1/4 in. 16 in lbs. 2,353,000 lbs. 128mm Kg 1,067.0 MT 1,186.0 MT *Spliced strength PRODUCT SPOTLIGHT {NEUTRON-8} Samson pioneered the implementation of HMPE tug assist lines with AmSteel -Blue. The extremely lightweight, non-water absorbing braided ropes made with Dyneema have replaced wire rope or other larger circumference and heavier polyester working lines. Products such as AmSteel -Blue, Neutron -8, and Proton -8 allow tug operators to handle lines with fewer crew members, thus saving money. 23

24 8x3 s II STRAND Force-8 Product Code: 871 A unique, patented construction mooring line made with Dyneema, featuring a firm cross section specially designed for single/split drum winch applications FEATURES: > Uses Dyneema SK-75 > A size-for-size strength replacement for wire rope at only 1/7th the weight > Torque-free, very flexible, easy to handle > Similar elastic elongation to wire rope > Easily inspected or field spliced > Floats APPLICATIONS: > Primary vessel mooring lines > Wire replacement for tug working lines > Face and wing wires for push tugs > Emergency and seismic tow lines The unique, patented construction has a firm cross-section designed for single drum and split drum winch applications. The firm construction results in reduced compression flattening and minimal diving on the drum, while still providing the high strength, low weight, and excellent flex-fatigue resistance of a rope made with Dyneema. A Samthane coating is applied to the rope to add wear protection without impacting flexibility or ease of splicing. Force-8 is available in long continuous production block creel lengths to meet the needs of deep water mooring or lifting projects. The design of Force-8 allows for easy visual inspection and verification of internal and external strand wear. Recommended for split drum or single drum winch applications; not recommended for use on H-bitts, capstans or cleats if surging or rendering the rope is required. DYNEEMA SK-75 PATENTED 8x3-STRAND Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 1 in. 3 in lbs. 85,100 lbs. 24mm 32.1 Kg 38.6 MT 42.9 MT SPECIFICATIONS: 1-1/16 in. 3-1/4 in lbs. 98,200 lbs. 26mm 37.6 Kg 44.5 MT 49.5 MT Specific Gravity: 1-1/8 in. 3-1/2 in lbs. 112,000 lbs. 28mm 43.4 Kg 50.9 MT 56.6 MT 1-1/4 in. 3-3/4 in lbs. 127,000 lbs. 30mm 49.7 Kg 57.6 MT 64.0 MT.98 (floats) 1-5/16 in. 4 in lbs. 143,000 lbs. 32mm 56.4 Kg 64.7 MT 71.9 MT Elastic Elongation Percentage 1 3/8 in. 4-1/8 in lbs. 152,000 lbs. 34mm 61.0 Kg 69.0 MT 76.6 MT At % of break strength 1-1/2 in. 4-1/2 in lbs. 176,000 lbs. 36mm 70.8 Kg 80.0 MT 88.9 MT 10% % 1-5/8 in. 5 in lbs. 213,000 lbs. 40mm 87.0 Kg 96.7 MT MT 20% % 1-3/4 in. 5-1/2 in lbs. 253,000 lbs. 44mm Kg MT MT 30% % 2 in. 6 in lbs. 296,000 lbs. 48mm Kg MT MT Splicing Procedures Required: *Spliced strength > Eye splice 8x3-Strand/Class II Rope > End for End Splice 8x3-Strand/Class II Rope PRODUCT SPOTLIGHT {FORCE-8} Samson's Force-8 is made with Dyneema SK-75 for high performance and to maximize strength and minimize weight. Dyneema SK-75 represents the most technically advanced virgin HMPE (High Modulous Polyethylene) fiber available for rope manufacturing. Since it is not a post-drawn or heat-set HMPE fiber, Dyneema SK-75 translates into Samson ropes with the highest tension-fatigue resistance and longest service life; superior to other synthetics such as nylon, olefins, polyester or aramids. 24

25 Product Code: 830 Proton-8 Proton -8 is an excellent versatile rope made with Dyneema which provides cost saving benefits in a multitude of marine applications 8 STRAND Class II Proton -8 uses Dyneema SK-75 for high strength and low weight, with a polyester overlay to provide the heat resistance and grip necessary for use on bitts and capstans. Its firm, flexible, torque-free construction performs well on both single and split drum winches. Compared to all polyester or polyester/polypropylene combo ropes, Proton -8 is over twice as strong and weighs less size-for-size. It provides substantially better service life, is almost neutrally buoyant, and has low water absorption for ease and speed of handling during deployment and retrieval. The yellow Samthane coating insures maximum wear resistance and service life while making Proton -8 highly visible. This unique working line with Dyneema is a proven lightweight solution to the problem of large, heavy ropes that are difficult to manage, and add opportunity for crew injury. Designed for use on H-bitts and capstans for surging and rendering. FEATURES: > High grip and heat resistance > High strength to weight ratio with low water absorption for lightweight handling > Flexible, torque-free 8-strand with a firm cross-section > Easy to field splice APPLICATIONS: > Tractor tug winch line > Primary or secondary vessel mooring lines > Ship tug lines stored on winch drum or flaked on deck > Barge tie-up lines DYNEEMA SK-75 8-STRAND SPECIFICATIONS: Specific Gravity: 1.09 Elastic Elongation Percentage: At % of break strength 10% % 20% % 30% % Splicing Procedures Required: > Eye splice 8-Strand/Class II Rope > End for End Splice 8-Strand/Class II Rope Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 1 in. 3 in lbs. 54,900 lbs. 24mm 37.2 Kg 24.9 MT 27.7 MT 1-1/8 in. 3-1/2 in lbs. 68,900 lbs. 28mm 45.4 Kg 31.3 MT 34.7 MT 1-1/4 in. 3-3/4 in lbs. 86,900 lbs. 30mm 57.3 Kg 39.4 MT 43.8 MT 1-5/16 in. 4 in lbs. 104,000 lbs. 32mm 61.8 Kg 47.2 MT 52.4 MT 1-3/8 in. 4-1/8 in lbs. 108,000 lbs. 34mm 68.4 Kg 48.8 MT 54.3 MT 1-1/2 in. 4-1/2 in lbs. 125,000 lbs. 36mm 82.4 Kg 56.7 MT 63.0 MT 1-5/8 in. 5 in lbs. 140,000 lbs. 40mm Kg 63.5 MT 70.6 MT 1-3/4 in. 5-1/2 in lbs lbs. 44mm Kg 86.1 MT 95.7 MT 2 in. 6 in lbs. 238,000 lbs. 48mm Kg MT MT 2-1/8 in. 6-1/2 in lbs. 277,000 lbs. 52mm Kg MT MT 2-1/4 in. 7 in lbs. 316,000 lbs. 56mm Kg MT MT 2-3/8 in. 7-1/8 in lbs. 383,000 lbs. 57mm Kg MT MT 2-1/2 in. 7-1/2 in lbs. 396,000 lbs. 60mm Kg MT MT 2-5/8 in. 8 in lbs. 436,000 lbs. 64mm Kg MT MT 2-3/4 in. 8-1/2 in lbs. 468,000 lbs. 68mm Kg MT MT 3 in. 9 in lbs. 542,000 lbs. 72mm Kg MT MT 3-1/4 in. 10 in lbs. 628,000 lbs. 80mm Kg MT MT *Spliced strength 25

26 s II STRAND Quantum-8 Product Code: 863 Lightweight, high strength floating line with grip for use on H-bitts and capstans FEATURES: > A blend of polyester and Dyneema SK-75 > Good grip on capstans and H-bitts > Floats > Better abrasion resistance than Proton -8 > Excellent single drum spooling capabilities APPLICATIONS: > Wire replacement > Secondary mooring lines > Barge and dredge working lines > Tractor tug winch lines > General working lines > Heavy lift slings > Rig tow lines > Lowering / lifting lines Quantum-8 was developed to meet customer requests for a lightweight, high strength, torque-free rope that can float and grip a winch or capstan. Lighter and stronger than Proton -8, Quantum-8 is a unique upgrade. This patented construction utilizes Samson s exclusive DPX fiber technology. Quantum-8 has comparable grip to Proton -8 but unlike Proton -8, it floats. Samson's proven DPX fiber technology has the best abrasion and cut resistance of all high performance fibers, so rope durability is excellent. Quantum-8 has multiple marine uses. It can be used as a high performance tug working line, a floating tug stern line, a typhoon or vessel mooring line, an offshore messenger or pick-up line. Quantum-8 has an orange urethane coating for high visibility as well as additional abrasion resistance. DYNEEMA SK-75/ POLYESTER BLEND 8-STRAND Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 1 in. 3 in lbs. 57,600 lbs. 24mm 34.2 Kg 26.1 MT 29.0 MT SPECIFICATIONS: 1-1/8 in. 3-1/2 in lbs. 76,500 lbs. 28mm 43.3 Kg 34.7 MT 38.6 MT Specific Gravity: 1-1/4 in. 3-3/4 in lbs. 103,000 lbs. 30mm 53.4 Kg 46.5 MT 51.7 MT /16 in. 4 in lbs. 116,000 lbs. 32mm 59.1 Kg 52.7 MT 58.5 MT 1-3/8 in. 4-1/8 in lbs. 123,000 lbs. 34mm 64.7 Kg 55.9 MT 62.1 MT Elastic Elongation Percentage: 1-1/2 in. 4-1/2 in lbs. 165,000 lbs. 36mm 77.1 Kg 74.7 MT 83.0 MT at % of break strength 1-5/8 in. 5 in lbs. 198,000 lbs. 40mm 90.3 Kg 89.8 MT 99.8 MT 10% % 1-3/4 in. 5-1/2 in lbs. 228,000 lbs. 44mm Kg MT MT 20% % 2 in. 6 in lbs. 290,000 lbs. 48mm Kg MT MT 30% % 2-1/8 in. 6-1/2 in lbs. 324,000 lbs. 52mm Kg MT MT 2-1/4 in. 7 in lbs. 356,000 lbs. 56mm Kg MT MT Splicing Procedures Required: 2-3/8 in. 7-1/8 in lbs. 396,000 lbs. 57mm Kg MT MT > Eye splice 2-1/2 in. 7-1/2 in lbs. 437,000 lbs. 60mm Kg MT MT 8-Strand/Class II Rope 2-5/8 in. 8 in lbs. 477,000 lbs. 64mm Kg MT MT 2-3/4 in. 8-1/2 in lbs. 522,000 lbs. 68mm Kg MT MT > End for End Splice 3 in. 9 in lbs. 617,000 lbs. 72mm Kg MT MT 8-Strand/Class II Rope 3-1/4 in. 10 in lbs. 720,000 lbs. 80mm Kg MT MT 3-5/8 in. 11 in lbs. 850,000 lbs. 88mm Kg MT MT 4 in. 12 in lbs. 1,079,000 lbs. 96mm Kg MT MT 4-1/4 in. 13 in lbs. 1,259,000 lbs. 104mm Kg MT MT 4-5/8 in. 14 in lbs. 1,452,000 lbs. 112mm Kg MT MT 5 in. 15 in lbs. 1,658,000 lbs. 120mm Kg MT MT 5-1/4 in. 16 in lbs. 1,895,000 lbs. 128mm Kg MT MT 5-1/2 in. 17 in lbs. 2,129,000 lbs. 136mm 1,131.0 Kg MT 1,073.0 MT 6 in. 18 in lbs. 2,354,000 lbs. 144mm 1,274.0 Kg 1,068.0 MT 1,186.0 MT *Spliced strength 26

27 Product Code: 873 Lightweight, high strength rope that grips H-bitts and capstans Quantum-12 12STRAND Class II Quantum-12 is the latest addition in the continuing development of products utilizing Samson s patented use of DPX fiber. Much like Quantum-8, Quantum-12 is a lightweight, high strength, floating rope that can grip a capstan or H-bitt. The DPX fiber provides superior abrasion and cut resistance, but with a higher coefficient of friction than similar high performance ropes such as AmSteel -Blue. The 12-strand construction provides added flexibility, improved handling and easy spliceability. Green Samthane coating provides excellent visibility and additional abrasion resistance. FEATURES: > Good grip on capstans and H-bitts > Excellent abrasion resistance > Floats > Easily spliced APPLICATIONS: > Wire replacement > Tractor tug winch lines > Offshore messenger or pick-up line > For use on H-bitts, capstans and winches > General working lines > Rig tow lines DYNEEMA SK STRAND SPECIFICATIONS: Specific Gravity: 0.99 Elastic Elongation Percentage: At % of break strength 10% % 20% % 30% % Splicing Procedures Required: > Eye splice 12-Strand/Class II Rope > End for End Splice 12-Strand/Class II Rope Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 1 in. 3 in lbs. 73,800 lbs. 24mm 34.7 Kg 33.5 MT 37.2 MT 1-1/8 in. 3-1/2 in lbs. 94,500 lbs. 28mm 43.9 Kg 42.9 MT 47.6 MT 1-1/4 in. 3-3/4 in lbs. 117,000 lbs. 30mm 54.2 Kg 53.1 MT 59.0 MT 1-5/16 in. 4 in lbs. 131,000 lbs. 32mm 59.7 Kg 59.6 MT 66.2 MT 1-1/2 in. 4-1/2 in lbs. 172,000 lbs. 36mm 78.0 Kg 78.0 MT 86.6 MT 1-5/8 in. 5 in lbs. 216,000 lbs. 40mm 91.5 Kg 98.0 MT MT 1-3/4 in. 5-1/2 in lbs. 275,000 lbs. 44mm Kg MT MT 2 in. 6 in lbs. 302,000 lbs. 48mm Kg MT MT 2-1/8 in. 6-1/2 in lbs. 338,000 lbs. 52mm Kg MT MT 2-1/4 in. 7 in lbs. 374,000 lbs. 56mm Kg MT MT 2-3/8 in. 7-1/8 in lbs. 419,000 lbs. 57mm Kg MT MT 2-1/2 in. 7-1/2 in lbs. 495,000 lbs. 60mm Kg MT MT 2-5/8 in. 8 in lbs. 558,000 lbs. 64mm Kg MT MT 2-3/4 in. 8-1/2 in lbs. 612,000 lbs. 68mm Kg MT MT 3 in. 9 in lbs. 698,000 lbs. 72mm Kg MT MT 3-1/4 in. 10 in lbs. 768,000 lbs. 80mm Kg MT MT *Spliced strength Larger sizes may be available. Contact customer service for details. 27

28 s II B DOUBLE BRAID Turbo-75 Product Code: 864 A robust, braid on braid construction winch line with 100% Dyneema designed to replace wire rope in mooring, tug or trawl systems FEATURES: > Excellent single drum spooling capabilities > Lightweight handling > Superior drum compression resistance > Retains hard round shape during use > Protective cover with Dyneema provides superior wear characteristics APPLICATIONS: > Single or split drum winch primary mooring lines for various vessels > Wire replacements in commercial fishing trawl systems > Tugger winch lines for AHVs > Deep water lifting projects > Tractor tug winch lines Proven effective as a Gilson wire rope replacement in the toughest trawl commercial fishing applications. Turbo-75 has the relative firmness and low stretch of wire, yet only 1/6th the weight. For tough winch rope applications where the weight and inflexibility of wire rope is a problem, Turbo-75 is ideal. It spools on winches very well, does not rust or fish hook like wire rope, and it floats! Both cover and core are coated with a proprietary Samthane coating. The superior fiber, design, and construction all create a rope which can have a service life 2 to 3 times that of wire rope. A standard cover repair kit is available and easy to field apply. This product design requires a specialized splicing technique that does not facilitate field splicing. DYNEEMA SK-75 CORE-DEPENDENT DOUBLE BRAID Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES SPECIFICATIONS: 1 in. 3 in lbs. 87,300 lbs. 24mm 37.2 Kg 39.6 MT 44.0 MT 1-1/8 in. 3-1/2 in lbs. 113,000 lbs. 28mm 43.9 Kg 51.0 MT 56.7 MT 1-1/4 in. 3-3/4 in lbs. 135,000 lbs. 30mm 57.3 Kg 61.2 MT 68.0 MT 1-3/8 in. 4-1/8 in lbs. 167,000 lbs. 34mm 71.4 Kg 75.5 MT 83.9 MT 1-1/2 in. 4-1/2 in lbs. 189,000 lbs. 36mm 88.5 Kg 85.7 MT 95.3 MT 1-5/8 in. 5 in lbs. 225,000 lbs. 40mm 99.7 Kg MT MT 1-3/4 in. 5-1/2 in lbs. 275,000 lbs. 44mm Kg MT MT 2 in. 6 in lbs. 329,000 lbs. 48mm Kg MT MT 2-1/8 in. 6-1/2 in lbs. 351,000 lbs. 52mm Kg MT MT 2-1/4 in. 7 in lbs. 405,000 lbs. 56mm Kg MT MT *Spliced strength Product Spotlight {TURBO-75} Turbo-75 is designed to withstand the abuses of the most demanding winch-based applications. The durable turbo braided jacket made with Dyneema is extremely cut and abrasion resistant. In this core-dependant construction, the jacket is sacrificial and protects the strength member, a 12-strand single braid core, also made with Dyneema. This robust combination, with a specific gravity of.98, is still light enough to float, yet outlasts wire in demanding applications by 2 or 3 times. Specific Gravity:.98 Elastic Elongation Percentage: At % of break strength 10% % 20% % 30% % Splicing Procedures Required: > Eye splice Product specific 28

29 A jacketed mooring line using Samson s exclusive DPX technology for enhanced grip Product DPX-75 Code: 865 DB DOUBLE BRAID Class II DPX -75 uses a 12-strand core combined with a proprietary braided jacket design of Dyneema and polyester fibers. A unique bonding material combines the cover and 12-strand core of Dyneema SK-75 to insure no movement between the two components. Samson s patented use of DPX fiber creates a very firm round rope that will have minimal flattening under load and little tendency to dive or jam on winch drums. DPX -75 was designed to replace wire rope on winch drums but not to serve as a marine working rope. This firm construction works extremely well as a mooring or winch line. A standard cover repair kit is available and easy to field apply. This product design requires specialized splicing techniques that does not facilitate field splicing. FEATURES: > DPX fiber jacket provides excellent grip on winch drums and heat resistance > 1/6th the weight of wire rope and it floats > Firm round cross-section for superior winch performance > Lightweight handling performance reduces mooring related injuries APPLICATIONS: > Primary mooring lines for single or split drum winches > Winch line for deep water lifting projects DYNEEMA SK-75 CORE-DEPENDENT DOUBLE BRAID SPECIFICATIONS: Specific Gravity: 1.00 Elastic Elongation Percentage: At % of break strength 10% % 20% % 30% % Splicing Procedures Required: > Eye splice Product specific Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 1-1/8 in. 3-1/2 in lbs. 113,000 lbs. 28mm 49.1 Kg 51.0 MT 56.7 MT 1-1/4 in. 3-3/4 in lbs. 135,000 lbs. 30mm 53.6 Kg 61.2 MT 68.0 MT 1-5/16 in. 4 in lbs. 149,000 lbs. 32mm 62.5 Kg 67.4 MT 74.8 MT 1-3/8 in. 4-1/8 in lbs. 167,000 lbs. 34mm 67.0 Kg 75.5 MT 83.9 MT 1-1/2 in. 4-1/2 in lbs. 189,000 lbs. 36mm 76.6 Kg 85.7 MT 95.3 MT 1-5/8 in. 5 in lbs. 225,000 lbs. 40mm 86.3 Kg MT MT 1-11/16 in. 5-1/4 in lbs. 252,000 lbs. 42mm 96.7 Kg MT MT 1-3/4 in. 5-1/2 in lbs. 275,000 lbs. 44mm Kg MT MT 2 in. 6 in lbs. 329,000 lbs. 48mm Kg MT MT *Spliced strength 29

30 s II B DOUBLE BRAID Turbo-EPX Product Code: 886 Lightweight, high strength, round and firm winch rope FEATURES: > Good grip on winch drums > Heat resistant > Lightweight for safer and easier handling > Superior winch performance with firm, round construction APPLICATIONS: > Wire replacement jacketed > Deepwater lowering and lifting lines > Primary mooring lines > Winch based tug working lines > Wire replacement tug working pendant Turbo-EPX is a unique jacketed product made with a 12-strand Dyneema SK-75 core bonded to a polyester jacket. This durable jacket provides grip and protects the strength member core from degradation. The core and jacket of Turbo-EPX work in harmony, preventing excess cover slack during mooring operations, which translates into longer service life. This construction creates a firm, round, torque-free rope, much like wire rope, but at 1/6th the weight. Turbo-EPX delivers excellent performance on all types of winches and offers much better resistance to flex and tension fatigue than wire. Coating improves service life, reduces snagging, enhances abrasion resistance, and prevents contamination. DYNEEMA SK-75 CORE- DEPENDENT Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 1 in. 3 in lbs. 87,300 lbs. 24mm 41.7 Kg 39.6 MT 44.0 MT 1-1/8 in. 3-1/2 in lbs. 113,000 lbs. 28mm 49.1 Kg 51.0 MT 56.7 MT 1-1/4 in. 3-3/4 in lbs. 135,000 lbs. 30mm 64.0 Kg 61.2 MT 68.0 MT 1-5/16 in. 4 in lbs. 149,000 lbs. 32mm 69.9 Kg 67.4 MT 74.8 MT 1-3/8 in. 4-1/8 in lbs. 167,000 lbs. 34mm 74.4 Kg 75.5 MT 83.9 MT 1-1/2 in. 4-1/2 in lbs. 189,000 lbs. 36mm 96.7 Kg 85.7 MT 95.3 MT 1-5/8 in. 5 in lbs. 225,000 lbs. 40mm Kg MT MT 1-3/4 in. 5-1/2 in lbs. 275,000 lbs. 44mm Kg MT MT 2 in. 6 in lbs. 329,000 lbs. 48mm Kg MT MT 2-1/8 in. 6-1/2 in lbs. 351,000 lbs. 52mm Kg MT MT 2-1/4 in. 7 in lbs. 405,000 lbs. 56mm Kg MT MT *Spliced strength SPECIFICATIONS: Specific Gravity: 1.13 Elastic Elongation Percentage: At % of break strength 10% % 20% % 30% % Splicing Procedures Required: > Eye splice Product specific 30

31 Product Code: 446 Designed for deepwater lifting projects and towed or sub-surface taut array systems that require a non-floating rope Validator STRAND Class II Validator-12 is an extremely high strength, low stretch, non-rotational 12-strand braid of Samthane coated Vectran fiber. It is designed to meet the needs of deepwater lifting projects and towed or sub-surface taut array systems that require a nonfloating rope. Based on its strength, size can be minimized to reduce drag and vortex strumming effects. FEATURES: > Very high strength with low stretch > Non-rotational/free running flexible construction > High wear and heat resistance > Fast, easy splicing APPLICATIONS: > Towed or taut array systems > Deepwater lowering and retrieval lines Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 7/64 in. 5/16 in. 0.5 lbs. 1,800 lbs. 2.5mm 0.74 Kg 0.82 MT 0.91 MT 1/8 in. 3/8 in. 0.6 lbs. 2,400 lbs. 3mm 0.89 Kg 1.1 MT 1.2 MT 3/16 in. 9/16 in. 1.3 lbs. 5,000 lbs. 5mm 1.9 Kg 2.2 MT 2.5 MT 1/4 in. 3/4 in. 2.2 lbs. 8,500 lbs. 6mm 3.3 Kg 3.8 MT 4.3 MT 5/16 in. 1 in. 3.6 lbs. 12,600 lbs. 8mm 5.4 Kg 5.7 MT 6.4 MT 3/8 in. 1-1/8 in. 4.6 lbs. 17,600 lbs. 9mm 6.8 Kg 8.0 MT 8.8 MT 7/16 in. 1-1/4 in. 6.1 lbs. 21,200 lbs. 11mm 9.1 Kg 9.6 MT 10.7 MT 1/2 in. 1-1/2 in. 8.8 lbs. 31,500 lbs. 12mm 13.1 Kg 14.3 MT 15.9 MT 9/16 in. 1-3/4 in lbs. 38,700 lbs. 14mm 16.1 Kg 17.6 MT 19.5 MT 5/8 in. 2 in lbs. 49,500 lbs. 16mm 20.8 Kg 22.5 MT 24.9 MT *Spliced strength SPECIFICATIONS: Specific Gravity: 1.39 Elastic Elongation Percentage: At % of break strength 10% % 20% % 30% % Splicing Procedures Required: > Eye splice 12-Strand/Class II Rope > End for End Splice 12-Strand/Class II Rope Product Code: 890 High strength and heat resistance, with low stretch and superior flex-fatigue characteristics Tech STRAND Class II Tech-12 is a very high strength and heat resistant, non-rotational, Samthane coated 12-strand single braid rope that offers the low stretch of an aramid fiber but with superior flex-fatigue. This 100% Technora fiber rope construction has negligible creep or cold flow characteristics and yields excellent control stability for equipment installations over a long period of time. FEATURES: > High strength, low stretch > Flexible non-rotational construction > High heat resistance > Easy to splice > Negligible creep/cold flow APPLICATIONS: > Deepwater lift lines > Towed or taut moored array systems > Heat resistant stopper Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 1/8 in. 3/8 in. 0.6 lbs. 2,500 lbs. 3mm 0.89 Kg 1.1 MT 1.3 MT 3/16 in. 9/16 in. 1.3 lbs. 5,000 lbs. 5mm 1.9 Kg 2.3 MT 2.5 MT 1/4 in. 3/4 in. 1.9 lbs. 7,300 lbs. 6mm 2.8 Kg 3.3 MT 3.7 MT 5/16 in. 1 in. 3.2 lbs. 11,700 lbs. 8mm 4.8 Kg 5.3 MT 5.9 MT 3/8 in. 1-1/8 in. 4.3 lbs. 16,200 lbs. 9mm 6.4 Kg 7.3 MT 8.2 MT 7/16 in. 1-1/4 in. 6.7 lbs. 25,200 lbs. 11mm 10.0 Kg 11.4 MT 12.7 MT 1/2 in. 1-1/2 in. 8.0 lbs. 29,700 lbs. 12mm 11.9 Kg 13.5 MT 15.0 MT 5/8 in. 2 in lbs. 38,700 lbs. 16mm 20.1 Kg 17.6 MT 19.5 MT 3/4 in. 2-1/4 in lbs. 58,500 lbs. 18mm 28.7 Kg 26.5 MT 29.5 MT 7/8 in. 2-3/4 in lbs. 75,600 lbs. 22mm 37.6 Kg 34.3 MT 38.1 MT 1 in. 3 in lbs. 91,800 lbs. 24mm 46.3 Kg 41.6 MT 46.3 MT *Spliced strength SPECIFICATIONS: Specific Gravity: 1.39 Elastic Elongation Percentage: At % of break strength 10% % 20% % 30% % Splicing Procedures Required: > Eye splice 12-Strand/Class II Rope > End for End Splice 12-Strand/Class II Rope 31

32 s II STRAND TrawlSteel-Blue Product Code: strand braid made with Dyneema and a control core of Samson s 100% polyester Duravet FEATURES: > Uses Dyneema SK-75 > A size-for-size strength replacement for wire rope > Torque-free, very flexible, easy to handle > Similar elastic elongation to wire rope > Easily inspected or field spliced APPLICATIONS: > Towing lines > Winch based working lines > Primary and secondary mooring lines > Trawl and bridle lines TrawlSteel-Blue evolved from the development of TrawlSteel a rope Samson engineers designed for use, as its name suggests, in the commercial fishing market. TrawlSteel-Blue combines a 12-strand construction of 100% Dyneema SK-75 with a control core of Samson s 100% polyester Duravet. This combination results in a rope with the high strength, lightweight and ease of splicing of a 12-strand made with Dyneema SK-75, yet stays round and firm perfect for use on winch-based systems. Since the Duravet control core is not load bearing, TrawlSteel-Blue can be spliced using the standard 12-strand Class II splicing instructions. DYNEEMA SK STRAND CONTROL CORE Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 1/2 in. 1-1/2 in. 8.0 lbs. 26,100 lbs. 12mm 11.9 Kg 11.8 MT 13.2 MT 9/16 in. 1-3/4 in. 9.6 lbs. 32,100 lbs. 14mm 14.3 Kg 14.6 MT 16.2 MT 5/8 in. 2 in lbs. 42,500 lbs. 16mm 19.8 Kg 19.3 MT 21.4 MT 3/4 in. 2-1/4 in lbs. 50,100 lbs. 18mm 24.8 Kg 22.7 MT 25.3 MT 7/8 in. 2-3/4 in lbs. 70,700 lbs. 22mm 35.3 Kg 32.1 MT 35.7 MT 1 in. 3 in lbs. 83,500 lbs. 24mm 43.2 Kg 37.9 MT 42.1 MT 1-1/16 in. 3-1/4 in lbs. 94,500 lbs. 26mm 48.5 Kg 42.9 MT 47.6 MT 1-1/8 in. 3-1/2 in lbs. 106,000 lbs. 28mm 64.7 Kg 48.3 MT 53.7 MT 1-1/4 in. 3-3/4 in lbs. 119,000 lbs. 30mm 71.3 Kg 54.0 MT 60.0 MT 1-5/16 in. 4 in lbs. 133,000 lbs. 32mm 88.8 Kg 60.1 MT 66.8 MT 1-1/2 in. 4-1/2 in lbs. 164,000 lbs. 38mm Kg 74.3 MT 82.6 MT 1-5/8 in. 5 in lbs. 194,000 lbs. 40mm Kg 88.1 MT 97.9 MT 1-3/4 in. 5-1/2 in lbs. 230,000 lbs. 44mm Kg MT MT 2 in. 6 in lbs. 261,000 lbs. 48mm Kg MT MT *Spliced strength SPECIFICATIONS: Specific Gravity: 1.03 Elastic Elongation Percentage: At % of break strength 10% % 20% % 30% % Splicing Procedures Required: > Eye splice 12-Strand/Class II Rope > End for End Splice 12-Strand/Class II Rope 32

33 Product Code: 859 Mooring Defender The first lightweight braided mooring line with proven reduced recoil risk 12STRAND Class II Mooring Defender is a 12-strand mooring line made with Dyneema based on Samson s unique, patented reduced recoil technology. Polyester fibers on the surface of the rope provide a high coefficient of friction, resulting in better grip. Dangerous snap back, inherent to traditionally designed ropes, can cause severe injury to rope handlers and equipment in ship mooring operations. Engineered to meet the needs of our modern US military vessels, Mooring Defender is designed to absorb the energy released by the rope when it breaks, thus reducing the tendency of the rope to recoil. Like Samson s other high performance mooring ropes, Mooring Defender has high strength, superior abrasion resistance, and low elongation. Size-for-size, Mooring Defender is over twice the strength of traditional nylons and, unlike nylon, has no wet strength loss. When compared to 4-strand aramid rope, Mooring Defender is more flexible, has better UV resistance, is lighter weight, and will not hockle. When Mooring Defender is subjected to excessive tension loads, the lower elongating fibers will break first, transferring the load to the remaining specially designed control strands. This creates an indication of rope failure before the rope becomes completely separated. In a conventional rope, the rope will break without warning, causing unpredictable and potentially dangerous movements of the broken ends. FEATURES: > Excellent UV resistance > Easy to inspect, splice or repair onboard ship > Reduced recoil property are quantified per CI 1502 standard APPLICATIONS: > Primary and secondary mooring lines > General working lines > SVMS component DYNEEMA SK-75 / POLYESTER 12-STRAND SPECIFICATIONS: Specific Gravity: 1.08 Elastic Elongation Percentage: At % of break strength 10% % 20% % 30% % Splicing Procedures Required: > Eye splice 12-Strand/Class II Rope > End for End Splice 12-Strand/Class II Rope Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 1 in. 3 in lbs. 65,400 lbs. 24mm 35.7 Kg 26.7 MT 29.7 MT 1-1/8 in. 3-1/2 in lbs. 88,000 lbs. 28mm 47.6 Kg 35.9 MT 39.9 MT 1-1/4 in. 3-3/4 in lbs. 99,000 lbs. 30mm 53.6 Kg 40.4 MT 44.9 MT 1-5/16 in. 4 in lbs. 111,000 lbs. 32mm 63.2 Kg 45.3 MT 50.3 MT 1-3/8 in. 4-1/8 in lbs. 123,000 lbs. 34mm 69.9 Kg 50.2 MT 55.8 MT 1-1/2 in. 4-1/2 in lbs. 137,000 lbs. 36mm 78.9 Kg 55.9 MT 62.1 MT 1-5/8 in. 5 in lbs. 170,000 lbs. 40mm 93.7 Kg 69.4 MT 77.1 MT 1-3/4 in. 5-1/2 in lbs. 201,000 lbs. 44mm Kg 82.1 MT 91.2 MT 2 in. 6 in lbs. 228,000 lbs. 48mm Kg 93.1 MT MT 2-1/8 in. 6-1/2 in lbs. 248,000 lbs. 52mm Kg MT MT 2-1/4 in. 7 in lbs. 322,000 lbs. 56mm Kg MT MT 2-1/2 in. 7-1/2 in lbs. 353,000 lbs. 60mm Kg MT MT *Spliced strength 33

34 Rope Classifications Understanding Samson's Class I and Class II rope categories Throughout this catalog, and all of Samson s literature and specifications, you will find references to Class I or Class II ropes. Since these classes of product vary in fiber composition and constructions, splicing techniques and testing procedures are different for the two classes of product. It can be helpful to understand the differences when selecting a product for a specific application, or determining the proper splicing technique to use. It is absolutely critical that the proper splicing technique be used when splicing Class II ropes. The Samson Splicing Manual has splicing instructions for both classes in the most common constructions and a visual reference chart for identifying products as well as both construction and class. At 158 pages, we believe it to be the most definitive reference on splicing synthetic rope available. In addition, all splicing instructions are available for download from There are several distinctions between the two classes Class I ropes: > are made from traditional synthetic fibers, or non-high modulus fibers such as olefin (polypropylene or polyethylene) nylon, polyester, or a combination of these fibers > not considered a replacement for wire ropes > have tenacities less than 15 grams/denier (gpd) and a total stretch at break of 6% or greater Class II ropes: > made from high performance fibers such as HMPE (Dyneema ), Aramid (Technora ), LCP (Vectran ), PBO (ZYLON ) and carbon fiber either singularly or in combination > are considered a replacement for wire ropes > have tenacities greater than 15 grams/denier (gpd) and a total stretch at break of less than 6% 34

35 RP-12 Product Code: SSR Our best blended rope, a 12-strand braid with the wear resistance and strength of an all polyester rope with significantly less handling weight RP ROUND PLAIT 12-STRAND Class I RP-12 SSR-1200 uses a unique design that combines polyester fiber with our proprietary Ultra Blue bi-polymer fiber in each yarn of the strand. The lightweight Ultra Blue fiber does not absorb water adding significant dry and wet working weight advantages. RP-12 SSR-1200 has a smooth, non-rotational construction with an excellent coefficient of friction for working off H-bitts for tug assist lines on conventional tugs or tractor tugs without winch drums. A special marine finish is added to enhance RP-12 SSR-1200 s performance. FEATURES: > High wear resistance on H-bitts and capstans > Good heat resistance for rendering on H-bitts or capstans > Firm, smooth running flexibility > 15 18% lighter than 100% polyester ropes APPLICATIONS: > Secondary mooring winch lines > Tug boat H-bitt working lines > Barge/dredge working lines > ATB working lines POLYESTER/ ULTRA BLUE FIBER BLEND 12-STRAND ROUND PLAIT SPECIFICATIONS: Specific Gravity: 1.20 Elastic Elongation Percentage: At % of break strength 10% % 20% % 30% % Splicing Procedures Required: > Eye splice Round Plait/Class I Rope > End for End Splice Round Plait/Class I Rope Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 3/4 in. 2-1/4 in lbs. 14,400 lbs. 18mm 23.8 Kg 6.5 MT 7.3 MT 7/8 in. 2-3/4 in lbs. 21,600 lbs. 22mm 35.7 Kg 9.8 MT 10.9 MT 1 in. 3 in lbs. 25,200 lbs. 24mm 40.2 Kg 11.4 MT 12.7 MT 1-1/8 in. 3-1/2 in lbs. 32,400 lbs. 28mm 52.1 Kg 14.7 MT 16.3 MT 1-1/4 in. 3-3/4 in lbs. 37,800 lbs. 30mm 58.0 Kg 17.1 MT 19.1 MT 1-5/16 in. 4 in lbs. 43,200 lbs. 32mm 69.9 Kg 19.6 MT 21.8 MT 1-1/2 in. 4-1/2 in lbs. 54,000 lbs. 36mm 89.3 Kg 24.5 MT 27.2 MT 1-5/8 in. 5 in lbs. 64,800 lbs. 40mm Kg 29.4 MT 32.7 MT 1-3/4 in. 5-1/2 in lbs. 75,600 lbs. 44mm Kg 34.3 MT 38.1 MT 2 in. 6 in lbs. 91,800 lbs. 48mm Kg 41.6 MT 46.3 MT 2-1/8 in. 6-1/2 in lbs. 108,000 lbs. 52mm Kg 49.0 MT 54.4 MT 2-1/4 in. 7 in lbs. 125,000 lbs. 56mm Kg 56.7 MT 63.1 MT 2-1/2 in. 7-1/2 in lbs. 147,000 lbs. 60mm Kg 66.5 MT 73.9 MT 2-5/8 in. 8 in lbs. 158,000 lbs. 64mm Kg 71.4 MT 79.4 MT 2-3/4 in. 8-1/2 in lbs. 184,000 lbs. 68mm Kg 83.3 MT 92.5 MT 3 in. 9 in lbs. 207,000 lbs. 72mm Kg 93.9 MT MT 3-1/4 in. 10 in lbs. 252,000 lbs. 80mm Kg MT MT 3-5/8 in. 11 in lbs. 306,000 lbs. 88mm Kg MT MT 4 in. 12 in lbs. 369,000 lbs. 96mm Kg MT MT *Spliced strength 35

36 I PROUND PLAIT 12-STRAND RP-12 Polyester Product Code: 402 A durable 12-strand work horse with excellent flex-fatigue life FEATURES: > Low elastic or working elongation > High strength > Excellent working flexibility APPLICATIONS: > Tug H-bitt or winch working lines > ATB working lines > Mooring pendants > Shock pendants RP-12 Polyester has been a standard of performance for years in the tug and mooring industry. The firm strand and smooth construction of this product with low elongation/high tenacity polyester fiber create a durable work horse that has excellent flex-fatigue life. The round plait construction allows a conforming surface contact. The all polyester fiber content creates excellent rendering capabilities while giving positive working control. For installing eye splices, RP-12 Polyester is easily tuck spliced. HEAT RESISTANT POLYESTER FIBER 12-STRAND ROUND PLAIT Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 3/4 in. 2-1/4 in lbs. 15,700 lbs. 18mm 28.0 Kg 7.1 MT 7.9 MT 7/8 in. 2-3/4 in lbs. 23,600 lbs. 22mm 41.8 Kg 10.7 MT 11.9 MT 1 in. 3 in lbs. 27,500 lbs. 24mm 52.2 Kg 12.5 MT 13.8 MT 1-1/8 in. 3-1/2 in lbs. 35,300 lbs. 28mm 61.2 Kg 16.0 MT 17.8 MT 1-1/4 in. 3-3/4 in lbs. 41,200 lbs. 30mm 68.2 Kg 18.7 MT 20.8 MT 1-5/16 in. 4 in lbs. 47,100 lbs. 32mm 81.7 Kg 21.4 MT 23.7 MT 1-1/2 in. 4-1/2 in lbs. 58,900 lbs. 36mm Kg 26.7 MT 29.7 MT 1-5/8 in. 5 in lbs. 70,700 lbs. 40mm Kg 32.0 MT 35.6 MT 1-3/4 in. 5-1/2 in lbs. 82,400 lbs. 44mm Kg 37.4 MT 41.5 MT 2 in. 6 in lbs. 99,900 lbs. 48mm Kg 45.3 MT 50.3 MT 2-1/8 in. 6-1/2 in lbs. 118,000 lbs. 52mm Kg 53.5 MT 59.4 MT 2-1/4 in. 7 in lbs. 136,000 lbs. 56mm Kg 61.6 MT 68.5 MT 2-1/2 in. 7-1/2 in lbs. 158,000 lbs. 60mm Kg 72.3 MT 80.3 MT 2-5/8 in. 8 in lbs. 176,000 lbs. 64mm Kg 80.0 MT 88.9 MT 2-3/4 in. 8-1/2 in lbs. 200,000 lbs. 68mm Kg 90.6 MT MT 3 in. 9 in lbs. 230,000 lbs. 72mm Kg MT MT 3-1/4 in. 10 in lbs. 278,000 lbs. 80mm Kg MT MT 3-5/8 in. 11 in lbs. 338,000 lbs. 88mm Kg MT MT 4 in. 12 in lbs. 405,000 lbs. 96mm Kg MT MT SPECIFICATIONS: Specific Gravity: 1.38 Elastic Elongation Percentage: At % of break strength 10%...1.7% 20%...2.7% 30%...3.9% Splicing Procedures Required: > Eye splice Round Plait/Class I Rope > End for End Splice Round Plait/Class I Rope *Spliced strength 36

37 RP-12 Product Code: 333 Ultra-Blue Proprietary bi-polymer olefin in a firm, round 12-strand with more than twice the wear life of standard polypropylene RP ROUND PLAIT 12-STRAND Class I This working or mooring line uses Samson s round plait construction to provide better wear characteristics than 8-strand ropes. Our proprietary blue olefin bi-polymer yarn provides 35 40% higher strength than a conventional olefin rope. The Ultra Blue fiber enhances the gripping capability by developing a distinct outer surface fuzz that acts as a wear protector for the subsurface fibers. FEATURES: > Floating line > Flexible non-rotational construction > Firm strand formation for maximum wear resistance > Good UV resistance APPLICATIONS: > Floating emergency barge trailer lines > Mooring lines > Tug and barge tie-up lines > Tug stern hawser PROPRIETARY ULTRA BLUE FIBER 12-STRAND ROUND PLAIT SPECIFICATIONS: Specific Gravity:.94 (floats) Elastic Elongation Percentage: At % of break strength 10% % 20% % 30% % Splicing Procedures Required: > Eye splice Round Plait/Class I Rope > End for End Splice Round Plait/Class I Rope Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 5/8 in. 2 in. 9.5 lbs. 8,600 lbs. 16mm 14.1 Kg 3.9 MT 4.3 MT 3/4 in. 2-1/4 in lbs. 12,200 lbs. 18mm 18.6 Kg 5.5 MT 6.1 MT 7/8 in. 2-3/4 in lbs. 18,000 lbs. 22mm 25.3 Kg 8.2 MT 9.1 MT 1 in. 3 in lbs. 22,500 lbs. 24mm 34.7 Kg 10.2 MT 11.3 MT 1-1/8 in. 3-1/2 in lbs. 24,300 lbs. 28mm 37.9 Kg 11.0 MT 12.2 MT 1-1/4 in. 3-3/4 in lbs. 34,200 lbs. 30mm 52.1 Kg 15.5 MT 17.2 MT 1-5/16 in. 4 in lbs. 38,700 lbs. 32mm 56.5 Kg 17.6 MT 19.5 MT 1-1/2 in. 4-1/2 in lbs. 42,300 lbs. 36mm 65.5 Kg 19.2 MT 21.3 MT 1-5/8 in. 5 in lbs. 54,900 lbs. 40mm 80.4 Kg 24.9 MT 27.7 MT 1-3/4 in. 5-1/2 in lbs. 65,700 lbs. 44mm 95.2 Kg 29.8 MT 33.1 MT 2 in. 6 in lbs. 76,500 lbs. 48mm Kg 34.7 MT 38.6 MT 2-1/8 in. 6-1/2 in lbs. 85,500 lbs. 52mm Kg 38.8 MT 43.1 MT 2-1/4 in. 7 in lbs. 99,000 lbs. 56mm Kg 44.9 MT 49.9 MT 2-1/2 in. 7-1/2 in lbs. 117,000 lbs. 60mm Kg 53.1 MT 59.0 MT 2-5/8 in. 8 in lbs. 131,000 lbs. 64mm Kg 59.2 MT 65.8 MT 2-3/4 in. 8 1/2 in lbs. 141,000 lbs. 68mm Kg 64.1 MT 71.2 MT 3 in. 9 in lbs. 162,000 lbs. 72mm Kg 73.5 MT 81.6 MT 3-1/4 in. 10 in lbs. 204,000 lbs. 80mm Kg 92.7 MT MT 3-5/8 in. 11 in lbs. 239,000 lbs. 88mm Kg MT MT 4 in. 12 in lbs. 284,000 lbs. 96mm Kg MT MT *Spliced strength 37

38 I BDOUBLE BRAID Stable Braid Product Code: 506 (Uncoated); 806 (Samthane Coated) A time proven, tough 100% polyester double braid with excellent controlled working elongation FEATURES: > High wear and heat resistance > Excellent flex-fatigue service life > Firm flexibility > Low working elongation > Sizes above 5/8" have a Pro-Gard marine finish and conform to U.S. Military specification #MIL-DTL Samson Parallay construction orients all fibers to the axis of the rope for maximum strength and wear resistance. The braided core and cover both contribute to the strength and firm hand, while remaining fully spliceable. This product works very well on winch drums or has the non-rotational flexibility to be flaked on deck for deep anchor deployment. It has shown its durability and stowage flexibility on traction winch towing applications utilizing below deck rope lockers. Stable Braid is a time proven, tough rope with excellent controlled working elongation. APPLICATIONS: > Traction winch tow lines > Constant tension winch mooring lines > Secondary mooring lines > Deep water anchoring or lifting lines High strength POLYESTER FIBER DOUBLE BRAID PARALLAY Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 1/4 in. 3/4 in. 2.1 lbs. 2,000 lbs. 6mm 3.1 Kg 0.89 MT 0.99 MT 5/16 in. 1 in. 3.2 lbs. 3,100 lbs. 8mm 4.8 Kg 1.4 MT 1.5 MT 3/8 in. 1-1/8 in. 4.5 lbs. 4,800 lbs. 9mm 6.7 Kg 2.2 MT 2.4 MT 7/16 in. 1-1/4 in. 6.1 lbs. 6,500 lbs. 11mm 9.1 Kg 3.0 MT 3.3 MT 1/2 in. 1-1/2 in. 8.2 lbs. 8,800 lbs. 12mm 12.2 Kg 4.0 MT 4.5 MT 9/16 in. 1-3/4 in lbs. 11,300 lbs. 14mm 16.4 Kg 5.1 MT 5.7 MT 5/8 in. 2 in lbs. 13,900 lbs. 16mm 20.8 Kg 6.3 MT 7.0 MT 3/4 in. 2-1/4 in lbs. 17,300 lbs. 18mm 26.8 Kg 7.9 MT 8.7 MT 7/8 in. 2-3/4 in lbs. 25,400 lbs. 22mm 40.3 Kg 11.5 MT 12.8 MT 1 in. 3 in lbs. 33,300 lbs. 24mm 50.6 Kg 15.1 MT 16.8 MT 1-1/8 in. 3-1/2 in lbs. 41,000 lbs. 28mm 67.4 Kg 18.6 MT 20.6 MT 1-1/4 in. 3-3/4 in lbs. 48,700 lbs. 30mm 80.2 Kg 22.1 MT 24.5 MT 1-5/16 in. 4 in lbs. 55,000 lbs. 32mm 90.5 Kg 24.9 MT 27.7 MT 1-1/2 in. 4-1/2 in lbs. 63,800 lbs. 36mm Kg 29.0 MT 32.2 MT 1-5/8 in. 5 in lbs. 74,100 lbs. 40mm Kg 33.6 MT 37.4 MT 1-3/4 in. 5-1/2 in lbs. 88,400 lbs. 44mm Kg 40.1 MT 44.6 MT 2 in. 6 in lbs. 105,000 lbs. 48mm Kg 47.8 MT 53.1 MT 2-1/8 in. 6-1/2 in lbs. 123,000 lbs. 52mm Kg 55.9 MT 62.1 MT 2-1/4 in. 7 in lbs. 141,000 lbs. 56mm Kg 64.0 MT 71.1 MT 2-1/2 in. 7-1/2 in lbs. 162,000 lbs. 60mm Kg 73.3 MT 81.4 MT 2-5/8 in. 8 in lbs. 180,000 lbs. 64mm Kg 81.7 MT 90.8 MT 2-3/4 in. 8-1/2 in lbs. 199,000 lbs. 68mm Kg 90.2 MT MT 3 in. 9 in lbs. 236,000 lbs. 72mm Kg MT MT 3-1/4 in. 10 in lbs. 292,000 lbs. 80mm Kg MT MT 3-5/8 in. 11 in lbs. 346,000 lbs. 88mm Kg MT MT 4 in. 12 in lbs. 400,000 lbs. 96mm Kg MT MT 4-1/4 in. 13 in lbs. 453,000 lbs. 104mm Kg MT MT 4-5/8 in. 14 in lbs. 524,000 lbs. 112mm 1,025.0 Kg MT MT 5 in. 15 in lbs. 593,000 lbs. 120mm 1,173.0 Kg MT MT SPECIFICATIONS: Specific Gravity: 1.38 Elastic Elongation Percentage: At % of break strength 10%...1.1% 20% % 30% % Splicing Procedures Required: > Eye splice Double Braid/Class I Rope > End for End Splice Double Braid/Class I Rope *Spliced strength 38

39 Product Code: Super 472 Strong Double braided nylon rope with high strength, high stretch and shock mitigation DB DOUBLE BRAID Class I Samson Parallay construction orients all fibers to the axis of the rope for maximum strength and wear resistance. The braided core and cover both contribute to the strength and firm hand, while remaining fully spliceable. This product works very well on capstans or has the non-rotational flexibility to be flaked on deck for deep buoy anchor deployment. It has shown its durability and stowage flexibility on traction winch towing applications utilizing below deck rope lockers. Super Strong has a long history of reliable performance that has met the strength and energy absorption requirements for diverse dynamic applications in the commercial marine industry. FEATURES: > High energy absorption/shock mitigation > Excellent wear resistance > Highly flexible easy to handle > High strength to weight ratio > Certain sizes meet U.S. Military specifications MIL-DTL-24050E APPLICATIONS: > Mooring lines > Tow lines > Deep water buoy anchor lines > Towed array stretcher High strength NYLON FIBER DOUBLE BRAID PARALLAY SPECIFICATIONS: Specific Gravity: 1.14 Elastic Elongation Percentage: At % of break strength 10%...3.0% 20%...5.3% 30% % Splicing Procedures Required: > Eye splice Double Braid/Class I Rope > End for End Splice Double Braid/Class I Rope Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 1/4 in. 3/4 in. 1.6 lbs. 2,000 lbs. 6mm 2.4 Kg 0.89 MT 0.99 MT 5/16 in. 1 in. 2.6 lbs. 2,900 lbs. 8mm 3.9 Kg 1.3 MT 1.5 MT 3/8 in. 1-1/8 in. 3.7 lbs. 4,200 lbs. 9mm 5.5 Kg 1.9 MT 2.1 MT 7/16 in. 1-1/4 in. 5.1 lbs. 5,600 lbs. 11mm 7.6 Kg 2.5 MT 2.8 MT 1/2 in. 1-1/2 in. 6.6 lbs. 7,300 lbs. 12mm 9.8 Kg 3.3 MT 3.7 MT 5/8 in. 2 in lbs. 12,900 lbs. 16mm 17.9 Kg 5.9 MT 6.5 MT 3/4 in. 2-1/4 in lbs. 16,000 lbs. 18mm 22.3 Kg 7.2 MT 8.1 MT 7/8 in. 2-3/4 in lbs. 24,700 lbs. 22mm 32.7 Kg 11.2 MT 12.4 MT 1 in. 3 in lbs. 30,600 lbs. 24mm 38.7 Kg 13.9 MT 15.4 MT 1-1/8 in. 3-1/2 in lbs. 38,300 lbs. 28mm 53.6 Kg 17.4 MT 19.3 MT 1-1/4 in. 3-3/4 in lbs. 44,200 lbs. 30mm 61.0 Kg 20.0 MT 22.3 MT 1-5/16 in. 4 in lbs. 50,400 lbs. 32mm 64.7 Kg 22.9 MT 25.4 MT 1-1/2 in. 4-1/2 in lbs. 64,300 lbs. 36mm 89.3 Kg 29.1 MT 32.4 MT 1-5/8 in. 5 in lbs. 78,200 lbs. 40mm Kg 35.5 MT 39.4 MT 1-3/4 in. 5-1/2 in lbs. 96,800 lbs. 44mm Kg 43.7 MT 48.5 MT 2 in. 6 in lbs. 111,000 lbs. 48mm Kg 50.5 MT 56.1 MT 2-1/8 in. 6-1/2 in lbs. 132,000 lbs. 52mm Kg 59.7 MT 66.3 MT 2-1/4 in. 7 in lbs. 150,000 lbs. 56mm Kg 68.2 MT 75.8 MT 2-1/2 in. 7-1/2 in lbs. 172,000 lbs. 60mm Kg 77.9 MT 86.5 MT 2-5/8 in. 8 in lbs. 196,000 lbs. 64mm Kg 88.7 MT 98.5 MT 2-3/4 in. 8-1/2 in lbs. 218,000 lbs. 68mm Kg 99.1 MT MT 3 in. 9 in lbs. 243,000 lbs. 72mm Kg MT MT 3-1/4 in. 10 in lbs. 289,000 lbs. 80mm Kg MT MT 3-5/8 in. 11 in lbs. 353,000 lbs. 88mm Kg MT MT 4 in. 12 in lbs. 425,000 lbs. 96mm Kg MT MT 4-1/4 in. 13 in lbs. 479,000 lbs. 104mm Kg MT MT 4-5/8 in. 14 in lbs. 549,000 lbs. 112mm Kg MT MT 5 in. 15 in lbs. 622,000 lbs. 120mm Kg MT MT *Spliced strength 39

40 8 STRAND Class I SSR Product Code: 263 A blended 8-strand with the wear resistance and strength of a 100% polyester rope, but with significantly less handling weight SSR is a non-rotational rope with an excellent coefficient of friction for working off H-bitts for tug assist lines on conventional tugs or tractor tugs without winch drums. To minimize connection weight to the assisted ship, many operators use AmSteel -Blue connection pendants for their lightweight and high wear resistance. FEATURES: > 20% less weight than an all polyester construction > Good strength with low working elongation > Non-rotational non-hockling > Excellent wear and flexibility APPLICATIONS: > Secondary mooring lines > Tug assist lines for use on H-bitts and winches > Barge tie-up lines > Mooring pendants Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 1-5/8 in. 5 in lbs. 61,200 lbs. 40mm Kg 27.8 MT 30.8 MT 1-3/4 in. 5-1/2 in lbs. 71,100 lbs. 44mm Kg 32.3 MT 35.8 MT 2 in. 6 in lbs. 89,100 lbs. 48mm Kg 40.4 MT 44.9 MT 2-1/8 in. 6-1/2 in lbs. 99,000 lbs. 52mm Kg 44.9 MT 49.9 MT 2-1/4 in. 7 in lbs. 113,000 lbs. 56mm Kg 51.4 MT 57.2 MT 2-1/2 in. 7-1/2 in lbs. 135,000 lbs. 60mm Kg 61.2 MT 68.0 MT 2-5/8 in. 8 in lbs. 148,000 lbs. 64mm Kg 67.0 MT 74.4 MT 3 in. 9 in lbs. 191,000 lbs. 72mm Kg 86.5 MT 96.2 MT 3-1/4 in. 10 in lbs. 227,000 lbs. 80mm Kg MT MT 3-5/8 in. 11 in lbs. 281,000 lbs. 88mm Kg MT MT 4 in. 12 in lbs. 337,000 lbs. 96mm Kg MT MT *Spliced strength SPECIFICATIONS: Specific Gravity: 1.20 Elastic Elongation Percentage: at % of break strength 10%...1.4% 20%...2.8% 30%...3.4% Splicing Procedures Required: > Eye splice 8-Strand/Class I Rope > End for End Splice 8-Strand/Class I Rope 3 STRAND Class I SSR Product Code: 220 A blended 3-strand rope with the wear resistance and strength of a 100% polyester rope, but with significantly less handling weight SSR will provide lower operating costs by providing longer service life than conventional blended fiber ropes. This is accomplished through a unique plied yarn construction using a combination of polyester fiber and our proprietary Ultra Blue bi-polymer fiber in each yarn of the strand formation. The combination minimizes the amount of polyester fiber and relies on the lightweight, non-water absorbing features of the Ultra Blue fiber. FEATURES: > Comparable strength and wear of an all polyester rope > 20% less weight than an all polyester rope > Low working elongation > Excellent grip on H-bitts APPLICATIONS: > Barge/dredge working lines > Tug assist lines > Tie-up lines > Deck/handy lines Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 3/4 in. 2-1/4 in lbs. 13,300 lbs. 18mm 21.4 Kg 6.0 MT 6.7 MT 13/16 in. 2-1/2 in lbs. 15,800 lbs. 20mm 25.7 Kg 7.2 MT 8.0 MT 7/8 in. 2-3/4 in lbs. 18,800 lbs. 22mm 30.7 Kg 8.5 MT 9.5 MT 1 in. 3 in lbs. 22,900 lbs. 24mm 38.1 Kg 10.4 MT 11.5 MT 1-1/8 in. 3-1/2 in lbs. 29,500 lbs. 28mm 49.1 Kg 13.4 MT 14.9 MT 1-1/8 in. 3-3/4 in lbs. 35,100 lbs. 30mm 58.6 Kg 15.9 MT 17.7 MT 1-5/16 in. 4 in lbs. 38,700 lbs. 32mm 64.4 Kg 17.6 MT 19.5 MT 1-1/2 in. 4-1/2 in lbs. 48,600 lbs. 36mm 83.6 Kg 22.0 MT 24.5 MT 1-5/8 in. 5 in lbs. 58,500 lbs. 40mm Kg 26.5 MT 29.5 MT 1-3/4 in. 5-1/2 in lbs. 67,500 lbs. 44mm Kg 30.6 MT 34.0 MT 2 in. 6 in lbs. 84,600 lbs. 48mm Kg 38.4 MT 42.6 MT 2-1/8 in. 6-1/2 in lbs. 94,500 lbs. 52mm Kg 42.9 MT 47.6 MT 2-1/4 in. 7 in lbs. 108,000 lbs. 56mm Kg 49.0 MT 54.4 MT 2-1/2 in. 7-1/2 in lbs. 128,000 lbs. 60mm Kg 58.0 MT 64.4 MT 2-5/8 in. 8 in lbs. 140,000 lbs. 64mm Kg 63.7 MT 70.8 MT 3 in. 9 in lbs. 182,000 lbs. 72mm Kg 82.5 MT 91.6 MT 3-1/4 in. 10 in lbs. 216,000 lbs. 80mm Kg 98.0 MT MT SPECIFICATIONS: Specific Gravity: 1.20 Elastic Elongation Percentage: At % of break strength 10%...1.5% 20%...3.2% 30%...4.0% Splicing Procedures Required: > Eye splice 3-Strand/Class I Rope > End for End Splice 3-Strand/Class I Rope *Spliced strength 40

41 Product Code: 252 Higher strength and more than double the wear life of standard 8-strand polypropylene Ultra Blue-8 8 STRAND Class I The Ultra Blue fiber enhances grip by developing a distinct outer surface fuzz that acts as a wear protector for the subsurface fibers. Ultra Blue fiber also has better UV properties than conventional olefin fibers. FEATURES: > Superior strength to standard 8-strand polypropylene ropes > Over twice the wear life of standard 8-strand polypropylene ropes > Floating non-rotational flexible construction > Excellent flex wear resistance APPLICATIONS: > Secondary mooring lines > Barge/dredge working line > Trailer tow lines > Messenger and pick-up lines Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 1 in. 3 in lbs. 21,400 lbs. 24mm 28.6 Kg 9.7 MT 10.8 MT 1-1/8 in. 3-1/2 in lbs. 26,200 lbs. 28mm 35.3 Kg 11.9 MT 13.2 MT 1-1/4 in. 3-3/4 in lbs. 31,500 lbs. 30mm 42.9 Kg 14.3 MT 15.9 MT 1-5/16 in. 4 in lbs. 33,800 lbs. 32mm 47.0 Kg 15.3 MT 17.0 MT 1-1/2 in. 4-1/2 in lbs. 39,900 lbs. 36mm 61.3 Kg 18.1 MT 20.1 MT 1-5/8 in. 5 in lbs. 52,200 lbs. 40mm 78.3 Kg 23.7 MT 26.3 MT 1-3/4 in. 5-1/2 in lbs. 62,100 lbs. 44mm 92.1 Kg 28.2 MT 31.3 MT 2 in. 6 in lbs. 73,800 lbs. 48mm Kg 33.5 MT 37.2 MT 2-1/8 in. 6-1/2 in lbs. 81,000 lbs. 52mm Kg 36.7 MT 40.8 MT 2-1/4 in. 7 in lbs. 98,100 lbs. 56mm Kg 44.5 MT 49.4 MT 2-1/2 in. 7-1/2 in lbs. 113,000 lbs. 60mm Kg 51.0 MT 56.7 MT 2-5/8 in. 8 in lbs. 126,000 lbs. 64mm Kg 57.2 MT 63.5 MT 2-3/4 in. 8-1/2 in lbs. 142,000 lbs. 68mm Kg 64.5 MT 71.7 MT 3 in. 9 in lbs. 158,000 lbs. 72mm Kg 71.9 MT 79.8 MT 3-1/8 in. 9-1/2 in lbs. 176,000 lbs. 76mm Kg 80.0 MT 88.9 MT 3-1/4 in. 10 in lbs. 194,000 lbs. 80mm Kg 88.2 MT 98.0 MT 3-5/8 in. 11 in lbs. 231,000 lbs. 88mm Kg MT MT 4 in. 12 in lbs. 275,000 lbs. 96mm Kg MT MT 6 in. 18 in lbs. 583,000 lbs. 144mm Kg MT MT *Spliced strength SPECIFICATIONS: Specific Gravity:.94 Elastic Elongation Percentage: At % of break strength 10%...1.7% 20%...3.5% 30%...4.2% Splicing Procedures Required: > Eye splice 8-Strand/Class I Rope > End for End Splice 8-Strand/Class I Rope Ultra Product Blue-3 Code: 130 Higher strength, better grip, and longer service life 3STRAND Class I The Ultra Blue fiber enhances the gripping capability by developing a distinct initial outer surface fuzz that also acts as a wear protector for the subsurface fibers. Its strength and wear features allow downsizing to reduce handling weight and improve efficiency. Potential rope related injuries during rope deployment or retrieval are minimized. FEATURES: > Floating high strength bi-polymer rope > Over twice the wear life of polypropylene > Superior UV resistance to polypropylene APPLICATIONS: > Tie-up lines > Floating trailer tow lines > General deck and handy lines Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 1 in. 3 in lbs. 20,300 lbs. 24mm 27.7 Kg 9.2 MT 10.3 MT 1-1/8 in. 3-1/2 in lbs. 23,900 lbs. 28mm 36.8 Kg 10.9 MT 12.1 MT 1-1/4 in. 3-3/4 in lbs. 29,700 lbs. 30mm 43.0 Kg 13.5 MT 15.0 MT 1-5/16 in. 4 in lbs. 33,300 lbs. 32mm 48.4 Kg 15.1 MT 16.8 MT 1-1/2 in. 4-1/2 in lbs. 37,800 lbs. 36mm 61.3 Kg 17.1 MT 19.1 MT 1-5/8 in. 5 in lbs. 49,500 lbs. 40mm 78.3 Kg 22.5 MT 24.9 MT 1-3/4 in. 5-1/2 in lbs. 58,500 lbs. 44mm 92.1 Kg 26.5 MT 29.5 MT 2 in. 6 in lbs. 70,200 lbs. 48mm Kg 31.8 MT 35.4 MT 2-1/8 in. 6-/12 in lbs. 76,500 lbs. 52mm Kg 34.7 MT 38.6 MT 2-1/4 in. 7 in lbs. 92,700 lbs. 56mm Kg 42.0 MT 46.7 MT 2-1/2 in. 7-1/2 in lbs. 106,000 lbs. 60mm Kg 48.2 MT 53.5 MT 2-5/8 in. 8 in lbs. 120,000 lbs. 64mm Kg 54.3 MT 60.3 MT 3 in. 9 in lbs. 150,000 lbs. 72mm Kg 68.2 MT 75.7 MT 3-1/4 in. 10 in lbs. 185,000 lbs. 80mm Kg 83.7 MT 93.0 MT *Spliced strength Manufactured in 1/4-inch diameter up to 3-1/4" diameter. SPECIFICATIONS: Specific Gravity:.94 Elastic Elongation Percentage: At % of break strength 10%...2.0% 20%...4.8% 30%...6.8% Splicing Procedures Required: > Eye splice 3-Strand/Class I Rope > End for End Splice 3-Strand/Class I Rope 41

42 8 STRAND Class I Pro-Set-8 Product Code: % nylon 8-strand, with full life flexibility for ease of handling and splicing, and excellent shock mitigation Pro-Set-8 uses only quality 100% nylon fibers that insure proper twist and lay tension. The finished four-stage construction maximizes resistance to wear and minimizes snagging during its service life. FEATURES: > High energy absorption > Superior long term wet wear > Non-rotational balanced construction APPLICATIONS: > Tow/shock lines > Mooring lines > SPM lines > Emergency tow lines Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 1-5/8 in. 5 in lbs. 61,200 lbs. 40mm Kg 27.8 MT 30.8 MT 1-3/4 in. 5-1/2 in lbs. 75,600 lbs. 44mm Kg 34.3 MT 38.1 MT 2 in. 6 in lbs. 86,700 lbs. 48mm Kg 39.3 MT 43.7 MT 2-1/8 in. 6-1/2 in lbs. 98,100 lbs. 52mm Kg 44.5 MT 49.4 MT 2-1/4 in. 7 in lbs. 117,000 lbs. 56mm Kg 53.1 MT 59.0 MT 2-1/2 in. 7-1/2 in lbs. 131,000 lbs. 60mm Kg 59.6 MT 66.2 MT 2-5/8 in. 8 in lbs. 149,000 lbs. 64mm Kg 67.4 MT 74.8 MT 2-3/4 in. 8-1/2 in lbs. 167,000 lbs. 68mm Kg 75.9 MT 84.4 MT 3 in. 9 in lbs. 185,000 lbs. 72mm Kg 83.7 MT 93.0 MT 3-1/4 in. 10 in lbs. 232,000 lbs. 80mm Kg MT MT 3-5/8 in. 11 in lbs. 274,000 lbs. 88mm Kg MT MT 4 in. 12 in lbs. 329,000 lbs. 96mm Kg MT MT 4-1/4 in. 13 in lbs. 387,000 lbs. 104mm Kg MT MT 4-5/8 in. 14 in lbs. 457,000 lbs. 112mm Kg MT MT 5 in. 15 in lbs. 518,000 lbs. 120mm Kg MT MT 5-1/4 in. 16 in lbs. 581,000 lbs. 128mm 1,046.0 Kg MT MT 5-1/2 in. 17 in lbs. 628,000 lbs. 136mm 1,186.0 Kg MT MT 6 in. 18 in lbs. 718,000 lbs. 144mm 1,330.0 Kg MT MT SPECIFICATIONS: Specific Gravity: 1.14 Elastic Elongation Percentage: At % of break strength 10% % 20% % 30% % Splicing Procedures Required: > Eye splice. 8-Strand/Class I Rope > End for End Splice.8-Strand/Class I Rope *Spliced strength 3 STRAND Class I Pro-Set-3 Product Code: 170 A premium four-stage 100% nylon rope 100% nylon fiber marine ropes which do not use substandard components provide longer service life with certified strength. Pro-Set-3 is a four-stage rope that allows full life flexibility for ease of handling and splicing. *Spliced strength FEATURES: > Good UV and wet abrasion resistance > High elasticity with excellent shock mitigation > Balanced construction resists hockling > Smooth, consistent strand formation for maximum wear life APPLICATIONS: > Tie-up and mooring lines > Shock and tow lines > Anchor lines > Deck lines Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 1 in. 3 in lbs. 22,500 lbs. 24mm 38.7 Kg 10.2 MT 11.3 MT SPECIFICATIONS: 1-1/16 in. 3-1/4 in lbs. 24,500 lbs. 26mm 43.2 Kg 11.1 MT 12.3 MT Specific Gravity: 1-1/8 in. 3-1/2 in lbs. 28,800 lbs. 28mm 50.6 Kg 13.1 MT 14.5 MT 1-1/4 in. 3-3/4 in lbs. 33,800 lbs. 30mm 59.5 Kg 15.3 MT 17.0 MT /16 in. 4 in lbs. 37,400 lbs. 32mm 67.0 Kg 16.9 MT 18.8 MT Elastic Elongation Percentage: 1-1/2 in. 4-1/2 in lbs. 46,800 lbs. 36mm 81.8 Kg 21.2 MT 23.6 MT At % of break strength 1-5/8 in. 5 in lbs. 56,700 lbs. 40mm 99.0 Kg 25.7 MT 28.6 MT 10%...5.5% 1-3/4 in. 5-1/2 in lbs. 70,200 lbs. 44mm Kg 31.8 MT 35.4 MT 2 in. 6 in lbs. 80,100 lbs. 48mm Kg 36.3 MT 40.4 MT 20% % 2-1/8 in. 6-1/2 in lbs. 90,900 lbs. 52mm Kg 41.2 MT 45.8 MT 30% % 2-1/4 in. 7 in lbs. 109,000 lbs. 56mm Kg 49.4 MT 54.9 MT 2-1/2 in. 7-1/2 in lbs. 122,000 lbs. 60mm Kg 55.1 MT 61.2 MT Splicing Procedures Required: 2-5/8 in. 8 in lbs. 138,000 lbs. 64mm Kg 62.5 MT 69.4 MT > Eye splice 2-3/4 in. 8-1/2 in lbs. 156,000 lbs. 68mm Kg 70.6 MT 78.5 MT 3-Strand/Class I Rope 3 in. 9 in lbs. 171,000 lbs. 72mm Kg 77.6 MT 86.2 MT > END FOR END SPLICE 3-1/4 in. 10 in lbs. 216,000 lbs. 80mm Kg 98.0 MT MT 3-Strand/Class I Rope 3-5/8 in. 11 in lbs. 252,000 lbs. 88mm Kg MT MT 42

43 Product Code: 226 SSR-301R A blended polyester/ultra Blue working line for superior wear resistance 3 STRAND Class I The ultimate lockline specifically designed to virtually eliminate slipstick when checking barges. The 3-strand rope construction is a high strength, lightweight and controlled smooth checking line that has double the wear life of standard lockline ropes. This is accomplished by our unique fiber and internal Resistex lubricant. The core fiber of each strand is 35% stronger than standard polypropylene fiber. The core fiber of each strand then has our internally-produced outer cover of high-tenacity filament polyester blended with spun polyester. The outer cover of polyester allows for excellent wear and heat resistance. The Resistex lubricant constantly lubricates the outer surface fibers when working loads are applied. This constant migration of Resistex to the surface yarns maximizes rope wear life, allows consistent checking ability, and minimizes heat build-up during checking. FEATURES: > Most cost effective lockline available > Gives long-term, smooth, consistent checking > Low working elongation for control > Excellent flex and wear resistance Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 1-1/2 in. 4-1/2 in lbs. 39,000 lbs. 36mm 69.8 Kg 17.7 MT 19.6 MT 1-5/8 in. 5 in lbs. 46,800 lbs. 40mm 85.6 Kg 21.2 MT 23.6 MT 1-3/4 in. 5-1/2 in lbs. 55,500 lbs. 44mm 98.2 Kg 25.2 MT 28.0 MT 2 in. 6 in lbs. 64,000 lbs. 48mm Kg 29.0 MT 32.3 MT 2-1/4 in. 7 in lbs. 80,000 lbs. 56mm Kg 36.3 MT 40.3 MT APPLICATIONS: > Barge and dredge working lines > Locklines and working ropes SPECIFICATIONS: Specific Gravity: 1.14 Elastic Elongation Percentage: At % of break strength 10%...2.1% 20%...3.5% 30%...4.0% Splicing Procedures Required: > Eye splice 3-Strand/Class I Rope > End for End Splice 3-Strand/Class I Rope *Spliced strength Product Code: 258 Premium Polyester-8 8 Suitable for deep water lifting projects, towing, or general marine applications that require a non-floating rope Class I STRAND A four-stage, 8-strand, plaited construction made from high-tenacity polyester. This non-torque construction offers excellent strength, low stretch, and superior resistance to wear. This product has a Pro-Gard marine finish. FEATURES: > Excellent strength > Low stretch > Superior resistance to wear APPLICATIONS: > Trawl and bridle lines > Purse seine lines > Secondary mooring lines > Mooring line pendants > Non-HMPE tug lines > Tug shock/stretcher pendants Size Size Weight SRT Size Weight SRT ISO/BS EN919 Diameter Circumference Per 100 FT. MBS* Diameter Per 100 M MBS* MBS INCHES INCHES POUNDS POUNDS MILLIMETERS Kilograms METRIC TONNES METRIC TONNES 1-5/8 in. 5 in lbs. 66,600 lbs. 40mm Kg 30.2 MT 33.6 MT 1-3/4 in. 5-1/2 in lbs. 79,700 lbs. 44mm Kg 36.1 MT 40.1 MT 2 in. 6 in lbs. 93,600 lbs. 48mm Kg 42.5 MT 47.2 MT 2-1/8 in. 6-1/2 in lbs. 108,000 lbs. 52mm Kg 49.0 MT 54.4 MT 2-1/4 in. 7 in lbs. 124,000 lbs. 56mm Kg 56.3 MT 62.6 MT 2-1/2 in. 7-1/2 in lbs. 142,000 lbs. 60mm Kg 64.5 MT 71.7 MT 2-5/8 in. 8 in lbs. 160,000 lbs. 64mm Kg 72.7 MT 80.7 MT 2-3/4 in. 8-1/2 in lbs. 178,000 lbs. 68mm Kg 80.8 MT 89.8 MT 3 in. 9 in lbs. 198,000 lbs. 72mm Kg 89.8 MT 99.8 MT 3-1/4 in. 10 in lbs. 243,000 lbs. 80mm Kg MT MT 3-5/8 in. 11 in lbs. 293,000 lbs. 88mm Kg MT MT 4 in. 12 in lbs. 353,000 lbs. 96mm Kg MT MT *Spliced strength SPECIFICATIONS: Specific Gravity: 1.38 Elastic Elongation Percentage: At % of break strength 10%...3.0% 20%...5.0% 30%...7.7% Splicing Procedures Required: > Eye splice 8-Strand/Class I Rope > End for End Splice 8-Strand/Class I Rope 43

44 REFERENCE Coatings Samthane Coatings A family of abrasion resistant coatings specifically formulated to match end-user requirements and specific rope constructions ADVANTAGES: > Improved service life > Reduced snagging > Enhanced abrasion resistance > Protection from contamination > Reduced cutting damage > Color coding for identification Samthane (Type A) Samthane (Type A) is a spliceable coating used on polyester and nylon fiber ropes which greatly enhances abrasion resistance. It also makes splicing used rope much easier. Available in a variety of colors for easy identification; tracks time in service, keys colors to specific operations, etc. Splicing new and used rope is easily done by utilizing the same tools and techniques for splicing uncoated rope. Coating adds approximately 3% to 5% weight to the line. Samthane (Type F) Samthane (Type F) is a spliceable coating specially formulated for coating high modulus fibers and olefin/polyester blend ropes. Physical properties are the same as for Type A coating. Coating adds approximately 3% to 5% weight to the line. Samthane (Type C) Samthane (Type C) is a non-spliceable jacket coating usually applied to specific sections of a line which will be subjected to extreme abrasion. The coating is very tough, with excellent resistance to cutting. It is usually applied to a thickness of 1/8" or more, which has a stiffening effect on the rope. This coating is applied to pre-spliced ropes and may also be used for thimble encapsulation. Samthane (Type S) Samthane (Type S) is a spliceable coating used on high modulus fiber and polyester fiber ropes. This coating adds firmness and greatly improves wear life. The coating will add approximately 3% to 5% weight to the rope. SAMTHANE COATING DESCRIPTIONS Properties Type A Type F Type C Type S Spiceability Yes Yes No Yes Shore Hardness N.A. N.A. 80A 90A N.A. Break Strength 400 psi 400 psi 4,100 psi 5,500 psi Elongation at Break 440% 440% 450% 250% 100% Modulus 70 psi 70 psi 1,000 psi 3,150 psi Type Waterborne Waterborne 2-part Waterborne Polyurethane Polyurethane Polyurethane Polyurethane 44

45 Rope Splicing Samson provides the most comprehensive splice instructions in the industry REFERENCE Splicing Fids are utilized to perform the appropriate splice procedure based on the class and type of construction. The fids are used in making required measurements and in burying the rope during the splicing operation. Each diameter of rope has a matching fid size and to insure that the required measurements are made correctly, the proper sized fid for the rope size must be used in performing a splice. There are two styles of fids offered: Aluminum Tubular Fids and Wire Fids. The Aluminum Tubular Fids are used by inserting the end rope section into the fid while the Wire Fids are attached to the end of the rope section. Tubular Fids are pushed through the rope with an appropriate sized pusher where Wire Fids are either fed through the rope or pulled through by attaching a feed line. Tubular Fid and Pusher Wire Fid Product Dimensions Total Short Fid Product Code Fid Size/Rope Dia. Fid Length Section Length Pusher Code 901 1/4 in. 5-1/2 in. 2-1/16 in. Small /16 in. 6-3/4 in. 2-1/2 in. Small /8 in. 7-3/4 in. 2-7/8 in. Small /16 in. 9-1/2 in. 3-9/16 in. Small /2 in. 11 in. 4-1/8 in. Small /16 in. 12-1/4 in. 3-5/8 in. Large /8 in. 14 in. 4-1/8 in. Large /4 in. 16 in. 4-3/4 in. Large /8 in. 19 in. 4-3/4 in. Large in. 21 in. 5-1/4 in. Large 914 Short Section of fid Product Total Short Fid Code Fid Size/Rope Dia. Fid Length Section Length /8 in. 12-1/4 in. 3 in /4 in. 13-1/4 in. 3-1/4 in /16 in. 14 in. 3-1/2 in /2 in. 16 in. 4 in /8 in. 17-1/2 in. 4-1/2 in /4 in. 19 in. 4-3/4 in in. 21 in. 5-1/4 in /8 in. 23 in. 5-3/4 in /4 in. 25 in. 6 in /2 in. 26 in. 6-1/2 in /8 in. 28 in. 7 in /4 in. 30 in. 7-1/2 in in. 32 in. 8 in /4 in. 35 in. 8-3/4 in. Total Length *Dimensions and Lengths are to 1/2 scale Short Section Splicing Instructions: The most current and up-to-date splicing instructions for products listed in the catalog are available online at: As depicted in the catalog, our rope constructions are stated as Class I and Class II ropes (see glossary of terms) and each type of rope class requires unique splicing procedures. For decades Samson has been known for supplying the most comprehensive splice instructions in the industry. Our new manual is no exception. Get your own copy today. Splicing Kits: The Samson Splice Training Kit comes complete with a fid, pusher, instructions for a double braid eye splice and two lengths of double braided ropes. Splicing Manual: Call customer service ( ) to order your copy or available for download at The Samson Splicing Kit comes with 5 aluminum tubular fids (size range 1/4" through 1/2" diameter) 45

46 HW HARDWARE Thimbles Rope Hardware Nylite Product Code: 964 Spools, shields and shackle assembly Unlike conventional thimbles the Nylite connector assembly is easily installed into or removed from a pre-made soft eye. Only 1/7th the weight of metal thimbles, Nylite connectors will not deform or rupture from repeated loadings. The Nylite shackle was designed to take full advantage of the high strength of the Nylite connector and synthetic rope. Working Details: > Working Load in tons (2000 lbs.) > Working loads, as given, are based on pin/bore relationship provided by use of Nylite Shackle. When using a non-standard pin, the Working Load as given DOES NOT APPLY. > When using with Class II ropes, upsize to ensure working load compatibility. *The Nylite Spool and Shield in sizes 1 5 may be purchased without a shackle (part # 969). Minimum order quantities apply, see net price list for details. *The Nylite Shackle sizes 1 9 may be purchased separately (part # 961). Size Size Samson Minimum Working Load Weight Each Sheild Size Diameter Circumfrence. Eye Size TONS POUNDS Color -1 3/8 1/2 in. 1-1/8 1-1/2 in. 2-3/16 in. 1.1 tn 0.5 lbs. Blue -2 9/16 5/8 in. 1-3/4 2 in. 2-3/4 in. 1.6 tn 1.0 lbs. Red -3 3/4 13/16 in. 2-1/4 2-1/2 in. 3-3/4 in. 2.5 tn 1.6 lbs. Green -4 7/8 1-1/16 in. 2-3/4 3-1/4 in. 4-7/8 in. 4.5 tn 3.7 lbs. Orange /8 1-5/16 in. 3-1/2 4 in. 6-1/8 in. 7.5 tn 6.0 lbs. Black /2 1-3/4 in. 4-1/2 5-1/2 in. 7-5/8 in tn 19.0 lbs. Yellow /4 in. 6 7 in. 9-3/4 in tn 24.0 lbs. Black /2 2-5/8 in. 7-1/2 8 in. 11-1/4 in tn 33.0 lbs. Black /4 3-1/4 in. 8-1/2 10 in. 14 in tn 56.0 lbs. Black D A E SHACKLE SHEILD B SPOOL F C PATENT PENDING SLEEVE G ROPE Size Spool Spool Pin* inside Diameter Outside Diameter DIA. A B C D E F G in in..44 in..88 in in in in..38 in in in in in..56 in in in in in..50 in in in in in..63 in in in in in..56 in in in in in..88 in in. 1.9 in in in..75 in in in in in in in in in in..88 in in in in in in in in in in in in in in in in in in in in in in in in in in in in in in in in in in in in in in in in in in in. *Sizes 1 5 are supplied with jam nuts and cotter pins. Larger sizes have cotter pins and standard nuts. C E D *Stainless steel thimble also available. Blue Line Thimble Product Code: 930 The Blue Line Thimble is compatible for use with Samson s high performance high modulus synthetic fiber rope products such as AmSteel -Blue, Force-8, and DPX -75. The tubular gusseted design creates a high strength thimble that protects the rope and maintains a proper bending radius when connected to mating hardware. F B A Size Range Thimble A B C D E F Size Range Thimble A B C D E F Diameter Weight Diamter Weight INCHES POUNDS INCHES inches INCHES INCHES INCHES INCHES MILLIMETERS KILOGRAMS mm mm mm mm mm mm 3/8 7/16 in. 0.8 lbs in in in in in in. 9 11mm 0.36 Kg 12mm 84mm 23mm 4.0mm 8.0mm 24mm 1/2 in. 1.1 lbs in in in in in in. 12mm 0.52 Kg 15mm 95mm 27mm 5.0mm 10mm 31mm 9/16 in. 1.2 lbs in in in in in in. 14mm 0.55 Kg 17mm 100mm 27mm 5.0mm 10mm 38mm 5/8 in. 1.4 lbs in in in in in in. 16mm 0.65 Kg 19mm 112mm 32mm 5.0mm 12mm 46mm 3/4 in. 2.0 lbs in in in in in in. 18mm 0.90 Kg 22mm 125mm 35mm 5.0mm 15mm 47mm 13/16 7/8 in. 2.8 lbs in in in in in in mm 1.26 Kg 25mm 150mm 45mm 6.3mm 16mm 61mm 1 in. 3.6 lbs in in in in in in. 24mm 1.64 Kg 28mm 157mm 45mm 7.0mm 16mm 56mm 1-1/16 in. 4.5 lbs in in in in in in. 26mm 2.02 Kg 30mm 170mm 47mm 7.0mm 18mm 68mm 1-1/8 1-5/16 in. 5.8 lbs in in in in in in mm 2.61 Kg 35mm 190mm 60mm 7.0mm 22mm 73mm 1-3/8 1-1/2 in. 7.5 lbs in in in in in in mm 3.38 Kg 45mm 228mm 70mm 7.0mm 27mm 94mm 1-5/8 1-11/16 in lbs in in in in in in mm 4.65 Kg 50mm 255mm 75mm 7.0mm 35mm 97mm 1-3/4 2 in lbs in in in in in in mm 4.90 Kg 55mm 268mm 80mm 7.5mm 31mm 99mm 46

47 Rope Hardware HW HARDWARE Thimbles Product Code: 933 Heavy Duty Hawser Thimble The cast steel Heavy Duty Hawser Thimble is designed for use with wire rope or high performance synthetic fiber ropes such as AmSteel -Blue, Force-8, and DPX -75. The galvanized thimble provides smooth even grooves, maximum strengths at critical areas, and proper bending radius for the rope. When used with synthetic ropes, thimble eye should be lashed at approximately 2, 4, 8, and 10 o clock on the thimble circumference to secure the thimble to the rope when not in service. Lashed Thimble Size Range Thimble A B C D E F Size Range Diameter Weight Diameter INCHES pounds Inches Inches Inches Inches Inches Inches MILLIMETERS 5/8 3/4 in. 3.5 lbs mm 7/8 1 in. 6.0 lbs mm 1-1/8 1-1/4 in. 9.5 lbs mm 1-3/8 1-1/2 in lbs mm 1-5/8 1-3/4 in lbs mm 1-7/8 2 in lbs mm 2-1/8 2-1/4 in lbs mm 2-3/8 2-1/2 in lbs mm 2-3/4 3 in lbs mm Orkot Thimble Product Code: 963 The Orkot Thimble is a simple, effective and secure means of attaching synthetic ropes to wire ropes by means of a shackle. Products made from Orkot Marine composite materials have exceptional wear resistance and virtually no swell in water, providing dimensional stability. They offer tolerance to edge loading and mis-alignment even with the heaviest loads, and are particularly suited to freeze fitting without the danger of shattering. Orkot TLM Marine is the standard grade of material incorporating a woven fabric reinforcement and solid lubricants within a thermosetting resin matrix. The material can be used in conjunction with water and grease lubrication and can be run dry for limited periods. ROPE ORKOT BUSHINGS SHACKle Size Range Size Maximum Working Load DIAMETER CIRCUMFRENCE Size Pin Diameter Jaw Winch Limit* INCHES inches Stock # inches INCHES INCHES TONS 7/8 in. 2-3/4 in. SSB 6 7/8 in. 1 in in. 6.5 tn 1 in. 3 in. SSB 8 1 in. 1-1/8 in in. 8.5 tn 1-1/8 in. 3-1/2 in. SSB 9 1-1/8 in. 1-1/4 in in 9.5 tn 1-1/4 in. 3-3/4 in. SSB /4 in. 1-3/8 in in tn 1-3/8 in. 4-1/4 in. SSB /8 in. 1-1/2 in in tn 1-1/2 in. 4-1/2 in. SSB /2 in. 1-5/8 in in tn 1-3/4 in. 5-1/2 in. SSB /4 in. 2 in in 25.0 tn 2 in. 6 in. SSB 35 2 in. 2-1/4 in in tn 2-1/2 in. 7-1/2 in. SSB /2 in. 2-3/4 in in 55.0 tn 3 in. 9 in. SSB 85 3 in. 3-1/4 in in tn *Working Load Limit: The working load limit included the combination af all applied loads, static and dynamic, based on normal service. The WLL does not represent the loss of strength in the bushing or rope due to creep and other mechanical, chemical and environmental factors. 47

48 REFERENCE Fiber Data Fiber Characteristics FIBER STRENGTH RETENTION AFTER CHEMICAL IMMERSION (Dyneema strength retention after 6-months immersion) AGENT HMPE Sea Water 100% Hydraulic Fluid 100% Kerosene 100% Gasoline 100% Glacial Acetic Acid 100% 1 M Hydrochloric Acid 100% 5 M Sodium Hydroxide 100% Ammonium Hydroxide (29%) 100% Hypophosphite Solution (5%) 100% Perchloroethylene 100% 10% Detergent Solution 100% Bleach 91% COMPARISON OF FIBER CHARACTERISTICS (using nylon as a basis of 1.0) GENERIC FIBER TYPE NYLON POLYESTER POLYPROPYLENE HMPE LCP ARAMID PBO Tenacity (g/den) (SK-60) (SK-75) Elongation % 12 18% 18 22% 3.6% 3.3% 4.6% 2.5% Coefficient of Friction 3 Melting Point F 300 F 625 F 930 F* 1200 F* 490 F 500 F Critical 325 F 350 F 250 F 150 F 300 F 520 F 750 F Temperature 4 Specific Gravity Cold-Flow (Creep) 5 Negligible Negligible Negligible Negligible Negligible Negligible Negligible In Mooring Line Use to high to high * Char temperature does not melt 1 TENACITY is the measurement of the resistance of fiber to breaking. 2 ELONGATION refers to percent elongation of fiber at break. 3 COEFFICIENT OF FRICTION is based on reluctance to slip or slide. 4 CRITICAL TEMPERATURE is defined as the point at which degradation is caused by temperature alone. 5 COLD FLOW (CREEP) is defined as fiber deformation (elongation) due to molecular slippage under a constant static loading situation. Fibers that have this inherent characteristic will display extremely low or negligible creep if minor fluctuations occur in the rate and/or frequency of load levels. In rope form, this would apply to polypropylene, polyethylene and HMPE fibers such as Spectra and Dyneema fiber. rope construction 3-Strand 8-Strand 12-Strand Double Braid 8x3-Strand Round Plait Core-Dependent Both Class I and Class II ropes can be produced in various rope constructions such as: 3-strand, 8-strand, 8x3-strand, 12-strand, double braids, or core-dependent braids. All Samson ropes are categorized for splicing and testing purposes as a Class I or Class II construction. Class I ropes are produced with non high modulus fibers that impart the strength and stretch characteristics to the rope which have tenacities of 15 grams/denier (gpd) or less and a total stretch at break of 6% or greater. Class I Ropes are produced with traditional fibers such as: Olefin (Polypropylene or Polyethylene), Nylon, and Polyester. Class II ropes are produced with high modulus fibers that impart the strength and stretch characteristics to the rope which have tenacities greater than 15 grams/denier (gpd) and a total stretch at break of less than 6%. Typical Class II ropes are produced with: HMPE (Dyneema or Spectra ), Aramid (Technora or Kevlar ), LCP (Vectran ), PBO (Zylon ), and Carbon fibers. 48

49 Elastic Elongation REFERENCE Stretch ELONGATION (STRETCH) ELASTIC ELONGATION (E.E): Refers to the portion of stretch or extension of a rope that is immediately recoverable after the load on the rope is released. This recoverable tendency is a primary result of the fiber (or fibers) used as opposed to the rope construction. Each type of synthetic fiber inherently displays a unique degree of elasticity. Relatively, HMPE fiber has an extremely low elasticity compared to nylon fiber. HYSTERESIS: Refers to a recoverable portion of stretch or extension over a period of time after a load is released. In measuring elastic recovery it is the recovery that occurs immediately when a load is removed; thereafter, a remaining small percentage of elastic recovery will occur slowly and gradually over a period of hours or days. This retardation in recovery is measured on a length/time scale and is known as hysteresis or recovery over time. PERMANENT EXTENSION (P.E.) WHILE WORKING: The amount of extension which exists when stress is removed but no time is given for hysteresis recovery. It includes the non-recoverable and hysteresis extension as one value and represents any increase in the length of a rope in a constant working situation such as during repeated surges in towing or other similar cyclical operations. The percentage of P.E. over the working load range is generally in order of four or six percent for braided ropes and two to three times as much for plaited. However, it will vary slightly with different fibers and rope constructions. Allowances must be made for this factor in applications such as sub-surface mooring or when using devices that demand precise depth location and measurement. PERMANENT EXTENSION (P.E.) AFTER RELAXED: That portion of extension which, due to construction deformation (compacting of braid and helical changes) and some plastic deformation of the yarn fibers, prevents the rope from returning to its original length. CREEP (COLD FLOW): Fiber deformation (elongation) due to molecular slippage under a constant, static loading situation. Fibers with this inherent characteristic display extremely low or negligible creep if minor fluctuations occur in the rate and/or frequency of load levels. In rope form, this would apply to polypropylene, polyethylene and HMPE fibers. COMPONENTS OF STRETCH ON A LOADED ROPE Published Elastic Elongation Data: All reported percentages are averages based on tests of new rope stabilized from 200D 2. Tested ropes are stabilized by being cycled 50 times at each stated percentage of its average break strength. New Rope Unloaded Initial Length 30 ft. Loaded Length 40 ft. Load Applied Load Released After Several Hours New length of rope 2 FT. After elongation 32 ft. PERMANENT ELONGATION 2 ft. Non-recoverable Total Stretch 10 ft. 5 ft. ELASTIC ELONGATION Immediately recoverable 3 ft. Load Released HYSTERESIS Recoverable over time Several hours later

50 REFERENCE Samson R&D Testing Methods and Specifications A WORD ABOUT PUBLISHED STRENGTHS AND TESTING: Because our ropes are asked to perform in the real world, our published strengths and test results reflect as accurately as possible the conditions under which they are intended to be used. Since nearly all ropes in actual use are terminated with a splice, publishing unspliced strengths does not allow the customer to select the appropriate size and strength rope for his application, and to assure the utmost in safety and length of service life. Throughout this catalog, and wherever SRT strengths are noted, all published data are for spliced ropes. This ensures that you are selecting sizes and strengths based on real world conditions. When comparing our data to other strengths, please ensure that spliced strengths are used. 1.1 million pound test machine Engineers at customer test of new tethers Testing methods at Samson: Testing is a critical stage in the design and manufacture of new ropes, and in determining retirement criteria for used ropes. Samson has established test methods that comply with industry standard methods like CI-1500, with more stringent specifications and testing instructions to eliminate wide tolerances or generalized procedures, The result is more consistent, reliable data for our customers, and more accurate assessment of retirement criteria. Samson R&D maintains the largest capacity testing machine for synthetic rope in the industry, capable of testing rope to failure up to 1.1 million pounds. The machine is fully computer controlled, provides automated cycle loading, and precise elongation measurements. All data is acquired, stored, calculations performed, and reports generated automatically. Samson s testing methodology covers: > Sampling of test specimens > Determination of diameter > Determination of lay/pitch, picks per inch > Linear density > Breaking force > Initial elongation (uncycled elongation) > Cycled elongation > Wet testing > Reporting procedures > Stiffness > Abrasion resistance More information on testing of high performance ropes is available for downloading at Go to the Technical Resources section directly from the home page. RESIDUAL STRENGTH TESTING: Samson offers customers residual strength testing of our ropes. Periodic testing of samples taken from ropes currently in service ensure that retirement criteria is updated to reflect the actual conditions of service. Call our customer service department for more information. (See sample Residual Strength chart on page 55). Samson was one of the first U.S. rope manufacturers to receive ISO 9001 certification, a natural progression of our existing Quality Assurance Program that incorporates: > Integrated product development and production software that translates engineering specifications into production orders for manufacturing > Specialized production documents for processing high modulus fibers > Standardized procedures for inspection, analysis, and testing of in-process product as well as finished goods > Individual specifications for all products Based on our Quality Assurance Program, Samson has received product type approval certifications from: ABS American Bureau of Shipping NK Nippon Kaiji Kyokai DNV Det Norske Veritas Product certifications are available upon request with order placement. As a long standing active member of the Cordage Institute, Samson has been a major contributor in developing standards and specifications on behalf of the Cordage Institute. 50

51 Rope Handling REFERENCE Rope Handling REMOVING ROPE FROM REEL OR COIL: Synthetic fiber ropes are normally shipped on reels for maximum protection while in transit. The rope should be removed from the reel by pulling it off the top while the reel is free to rotate. This can be accomplished by passing a pipe through the center of the reel and jacking it up until the reel is free from the deck. Rope should never be taken from a reel lying on its side. If the rope is supplied on a coil, it should always be uncoiled from the inside so that the first turn comes off the bottom in a counterclockwise direction. AVOID KINKING AND HOCKLING: The continuous use of a line on one side of a winch or windlass is a common abuse which can render a line useless in a comparatively short time. Repeated hauling of a line over a winch in a counterclockwise direction will extend the lay of the rope and simultaneously shorten the twist of each strand. As this action continues, kinks (or hockles) will develop. Once these hockles appear, they cannot be removed and the rope is permanently damaged at the point of hockling. Synthetic-fiber rope should be removed from the reel by pulling it off the top while the reel is free to rotate. If, on the other hand, the line is continuously hauled over a winch in a clockwise direction, the rope lay is shortened and the rope becomes stiff and will kink readily. To avoid detrimental conditions, the direction of turns over the winch should be alternated regularly. Clockwise turns are recommended for the initial use of a new line. If this practice is observed, the original rope balance will be maintained and the lines will have a much longer useful life. In these examples, the condition can arise in the deep sea mooring of free-rotating buoys where a 3-strand rope will rotate until it spins and twists itself into hockles and eventually destroys itself. The use of swivels with three-strand ocean-towing hawsers, or transmission stringing lines, may also cause damaging hockles. The sudden release of a heavy strain may also cause hockles or hard kinks. Excessive turns can cause kinking in any rope but hockles can occur only in the basic twisted ropes (3-strand, 4-strand and cable-laid). Braided and plaited ropes cannot be hockled; their interlocking strand construction prevents the unlaying. Strands run in both directions creating a torque-free balance thus eliminating any inherent tendency toward twist or rotation. Swivels can be used safely but are seldom necessary. One word of caution here: when marrying a braided line to a twisted line (and also to wire rope) the twisted line can impart its twist to the braided line if the ropes are married without a swivel in between. Once these hockles appear, they cannot be removed and the rope is permanently damaged. A braided or plaited rope, being torque-free, can have twist induced by constant working on winches and capstans. If a twist develops, it can easily be removed by counterrotating when the rope is relaxed. COILING AND FLAKING: 3-strand ropes should be coiled in a clockwise direction (or in the direction of the lay of the rope) and uncoiled in a counterclockwise direction to avoid kinks. An alternate and perhaps better method is to flake out the line figure-eight fashion. This avoids putting twist in the line in either direction and lessens the risk of kinking. FIGURE 8 STOWAGE METHOD: Great care must be taken in the stowage and proper coiling of 3-strand ropes to prevent the natural built-in twist of the line from developing kinks and damaging hockles. Braided ropes on the other hand have no built-in twist and are far more resistant to kinking. Even if kinks do develop they cannot develop further into hockles. The best method for making up braided rope for deck stowage is in figure-eight fashion either flaked flat on the deck or figure-eight vertically around bulkhead cleats. It should not be hand coiled in either direction as this merely puts turn into the line which may develop into kinks when payingout. Remember that there is no turn or twist in the line to begin with so do not produce it by coiling. The best method for making up braided rope for deck stowage is in figure-eight fashion either flaked flat on the deck or figure-eight vertically around bulkhead cleats. 51

52 REFERENCE Winch Info Bending Radius and Winch Data BENDING RADIUS: Any sharp bend in a rope under load decreases its strength substantially and may cause premature damage or failure. In sizing the radius of bitts, fairleads and chocks for best performance the following guidelines are offered: Surface diameter should be at least three times the rope diameter. This angle is more than 10 degrees Where a rope bends more than 10 degrees around bitts or chocks or, for that matter, is bending across any surface, the diameter of that surface should not be less than 3 times the diameter of the rope. Stated another way, the diameter of the surface should be at least three times the rope diameter. A 4-to-1 ratio (or larger) would be better yet because the durability of the rope increases substantially as the diameter of the surface over which it is worked increases. On a cleat when the rope does not bend radially around, the barrel of the cleat can be one half the rope circumference (minimum). Surface diameter should be at least 1/2 the rope circumference. Many tugboats using 8 and 9-inch circumference headlines in ship-handling work have fair size bitts (18-inch diameter, etc.), which is an adequate bending radius. However, ironically, many of these bow and shoulder bitts are equipped with horns of a relatively small diameter (5 or 6-inches) and it is these horns under or over which the lines pass and bend first in many cases. This results in shortened rope life and excessive rope replacement costs. Bollards with undersized horns. 2 ft. Minimum 6 Feet The ratio of the length of an eye splice to the diameter of the object over which the eye is to be placed (bollard, bitt, cleat, etc.) should be a minimum 3-to-1 relationship and preferably 5-to-1. In other words, if you have a bollard 2 feet in diameter the eye splice should be 6 or 10 feet in length. By using this ratio the angle of the 2 legs of the eye splice at its throat will not be so severe as to cause a parting or tearing action at this point (thimbles are normally designed with a 3-to-1 ratio). 52

53 Winch and Sheave Data REFERENCE Winch/Sheave WINDING ROPE: TUG ASSIST LINES: A minimum of the first 3-4 wrap layers of rope around the winch storage drum should be installed so the rope has a close and tight fit on the drum. The installation tension on the rope should be approximately 10% of the rope s minimum breaking strength. For new rope installations, the greater the number of wrap layers installed under the suggested tension will minimize or prevent subsequent wraps from diving or burying down into lower wraps. As the rope is used, the wrap tensions may loosen, it is suggested the total rope be re-tensioned at original installation loads and thereby prevent potential downward wrap slippage. A single drum or split drum winch, should always keep a minimum of 8 wraps of rope on the drum at all times. This is to insure that the connecting point of the rope to the winch does not under go load. Mooring Lines: The mooring line should be installed on the winch storage drum under tension that can be created by running the rope around a capstan, bollard, or pin. There are two key factors, it is important the rope be installed with tension and in a close tight fit on the drum to prevent rope diving or burying into the lower wrap layers. It is also important that the surface of the device used to create the tension is not abrasive to the rope and the installation speed or tension applied does not generate excessive heat build up on the rope. A single drum or split drum winch, should always keep a minimum of 8 wraps of rope on the drum at all times. This is to ensure that the connecting point of the rope to the winch does not under go load. Winding rope on winch drum 8 wraps on drum In connecting the rope to the winch drum flange, it is suggested that the end of the rope either be back spliced or whipped to create better rope firmness for the flange connection bracket to compress upon. ROPE CAPACITY OF A WINCH DRUM: effect of rope diameter on drum capacity The formula for determining the length of rope that will fit on a winch drum is: A Traverse Length to be A (B 2 -C 2 ) = stored (feet) 15.3 (rope dia.) 2 (A, B, C and rope diameter are expressed in inches; length (L) is expressed in feet.) Rope Diameter Feet on Drum 1-1/8 in. 100 ft. 1 in. 125 ft. 7/8 in. 165 ft. 3/4 in. 225 ft. 5/8 in. 325 ft. 1/2 in. 510 ft. C Barrel Diameter B Flange Diameter SHEAVE DIAMETERS AND SIZES: Sheave diameters should be: > Twisted/Plaited Ropes = 10 times rope diameter > Braided Ropes = 8 times rope diameter To assure maximum efficiency and safety, sheaves for braided ropes should be no less than 8 times the rope diameter. The sheave groove diameter should be no less than 10 percent greater than the rope diameter. The sheave groove should be round in shape. Sheaves with V shaped grooves should be avoided, as they tend to pinch and damage the rope through excessive friction and crushing of the rope fibers. Sheave surfaces should be kept smooth and free of burrs and gouges. Bearings should be maintained to ensure smooth rotation of sheaves. 8-inch Diameter Sheave 1-inch Diameter Rope 8:1 Ratio Groove Diameter Rope Diameter No less than 10% greater than rope diamter 53

54 REFERENCE Strength Data Standards of Strength and Determination WORKING LOADS: Working loads are for rope in good condition with appropriate splices, in noncritical applications and under normal service conditions. Working loads are based on a percentage of the approximate breaking strength of new and unused rope of current manufacture. For the 3-strand, 8-strand, 12-strand and double braid rope products depicted in this manual, when used under normal conditions, the working load percentage is 20% of published strengths. Normal working loads do not cover dynamic conditions such as shock loads or sustained loads, nor do they cover where life, limb or valuable property are involved. In these cases a lower working load must be used. A higher working load may be selected only with expert knowledge of conditions and professional estimates of risk, if the rope has been inspected and found to be in good condition, and if the rope has not been subject to dynamic loading (such as sudden drops, snubs or pickups), excessive use, elevated temperatures, or extended periods under load. Normal Working Loads: Normal working loads are not applicable when rope has been subject to dynamic loading. Whenever a load is picked up, stopped, moved or swung there is an increased force due to dynamic loading. The more rapidly or suddenly such actions occur, the greater the increase will be. In extreme cases, the force put on the rope may be two, three, or even more times the normal load involved. Examples could be ropes used as a tow line, picking up a load on a slack line, or using rope to stop a falling object. Dynamic effects are greater on a low elongation rope such as polyester than on a high elongation rope such as nylon, and greater on a short rope than on a long one. Therefore, in all such applications normal working loads as given do not apply. Dynamic loading: For dynamic loading applications involving severe exposure conditions, or for recommendations on special applications, consult the manufacturer. Danger to Personnel: Persons should be warned against the serious danger of standing in line with a rope under tension. Should the rope part, it may recoil with considerable force and speed. In all cases where any such risks are present, or where there is any question about the load involved or the condition of use, the working load should be substantially reduced and the rope properly inspected before every use. Splicing and Knots: Splices should be used instead of knots whenever possible because knots can decrease rope strength up to 50%. When splices are used, always use the manufacturer s recommended splicing procedures. When knots are used, be sure to take into consideration the knot s corresponding reduction to the rope strength and adjust your working load accordingly. 54

55 Residual Strength REFERENCE Strength Data Rope Inspection: Avoid using rope that shows signs of aging and wear. If in doubt, destroy the used rope. No type of visual inspection can be guaranteed to accurately and precisely determine the actual residual strength. When the fibers show wear in any given area, the rope should be re-spliced, downgraded, or replaced. Check the line regularly for frayed strands and broken yarns. Pulled strands should be re-threaded into the rope if possible. A pulled strand can snag on a foreign object during rope operation. Both outer and inner rope fibers contribute to the strength of the rope. When either is worn, the rope is naturally weakened. Open the strands of the rope and look for powdered fiber, which is one sign of internal wear. A heavily used rope will often become compacted or hard which indicates reduced strength. The rope should be discarded if this condition exists. Avoid all Abrasive Conditions: All rope will be severely damaged if subjected to rough surfaces or sharp edges. Chocks, bitts, winches, drums and other surfaces must be kept in good condition and free of burrs and rust. Pulleys must be free to rotate and should be of proper size to avoid excessive wear. Avoid Chemical Exposure: Rope is subject to damage by chemicals. Consult the manufacturer for specific chemical exposure, such as solvents, acids, and alkalis. Consult the manufacturer for recommendations when a rope will be used where chemical exposure (either fumes or actual contact) can occur. Avoid Overheating: Heat can seriously affect the strength of synthetic ropes. The temperatures at which 50% strength loss can occur are: Polypropylene 250 F, Nylon 350 F, Polyester 350 F. When using rope where the temperature exceeds these levels (or if it is too hot to hold), consult the manufacturer for recommendations as to the size and type of rope for the proposed continuous heat exposure conditions. When using ropes on a capstan or winch, care should be exercised to avoid surging while the capstan or winch head is rotating. The friction from the slippage causes localized overheating which can melt or fuse synthetic fibers, resulting in severe loss of tensile strength. Storage: All rope should be stored in a clean, dry area, out of direct sunlight, and away from extreme heat. It should be kept off the floor on racks to provide ventilation underneath. Never store on a concrete or dirt floor, and under no circumstances should cordage and acid or alkalis be kept in the same vicinity. Some synthetic rope (in particular polypropylene and polyethylene) may be severely weakened by prolonged exposure to ultraviolet (UV) rays unless specifically stabilized and/or pigmented to increase UV resistance. UV degradation is indicated by discoloration and the presence of splinters and slivers on the surface of the rope. Residual Strength AmSteel -Blue Mooring Lines on Oil & Gas Tankers Residual Strength (Percentage of MBS) 100% % % Usual wire rope replacement time 40% Mooring Hours (thousands) Samson offers customers residual strength testing of our ropes. 154 DWT = 1-5/8" Diameter Periodic testing of samples taken from ropes currently in service 136 DWT = 1-5/8" Diameter ensure that retirement criteria is updated to reflect the actual conditions 40 DWT = 1-1/8" Diameter of service. Call our customer service department for more information. 55

56 REFERENCE Selection and Usage Rope Inspection and Retirement ROPE LIFE FACTORS AND DAMAGE ASSESSMENT There are basically 3 steps to consider in providing the longest possible service life, the safest conditions and long range economy for ropes: Selection, Usage, and Retirement. The use of rope for any purpose subjects it to friction, bending and tension. All rope hardware, sheaves, rollers, capstans, cleats, as well as knots are, in varying degrees, damaging to the rope. It is important to understand that rope is a moving, working, strength member and even under the most ideal conditions will lose strength during use in any application. Maximizing the safety of rope performance is directly related to how strength loss is managed and making sure ropes are retired from service before they can create a dangerous situation. Ropes are serious working tools and used properly will give consistent and reliable service. The cost of replacing a rope is extremely small when compared to the physical damage or personnel injury a worn out rope can cause. 1. SELECTION Select the rignt rope for the job in the first place. Selecting a rope involves evaluating a combination of factors. Some of these factors are straightforward like comparing rope specifications. Others are less qualitative like a preference for a specific color or how a rope feels in your hand. Cutting corners, reducing application factors, sizes or strengths on an initial purchase creates unnecessary replacements, potentially dangerous conditions and increases long term costs. Fiber and construction being equal, a larger rope will out-last a smaller rope because of the greater surface wear distribution. By the same token, a stronger rope will out-last a weaker one because it will be used at a lower percentage of its break strength with less chance of over stressing. STRENGTH: When given a choice between ropes, select the strongest of any given size. A load of 200 pounds represents 2% of the strength of a rope with a breaking strength of 10,000 pounds. The same load represents 4% of the strength of a rope that has a breaking strength of 5,000 pounds. The weaker rope is having to work harder and as a result will have to be retired sooner. ELONGATION: It is well accepted that ropes with lower elongation under load will give you better load control, which is a big help at complicated job sites. However, a rope with lower elongation that is shock loaded can fail without warning even though it appears to be in good shape. Low elongating ropes should be selected with the highest possible strength. Twisted rope has lower strength and more stretch. Braided rope has higher strength and lower stretch. FIRMNESS: Select ropes that are firm and round and hold their shape during use. Soft or mushy ropes will snag easily and abrade quickly causing accelerated strength loss. A loose or mushy rope will almost always have higher break strengths than a similar rope that is firm and holds its shape because the fibers are in a straighter line, which improves strength but compromises durability. AND ABRASION: Rope construction plays an important role in resistance to normal wear and abrasion. Braided ropes have a basically round, smooth construction that tends to flatten out somewhat on a bearing surface. This distributes the wear over a much greater area, as opposed to the crowns of a 3-strand or, to a lesser degree, on an 8-strand rope. All ropes should be protected against sharp and abrasive surfaces. Wire ropes tend to score and gouge chocks and bitts creating cutting edges that can damage synthetic ropes. Weld beads on repaired capstans, fairleads, etc. are equally damaging unless dressed down smoothly. 56

57 Rope Inspection and Retirement REFERENCE Retirement 2. USAGE Use rope properly: do not abuse or shock load it. Observe recommended usage factors for bending and work loads. Keep ropes clean and eliminate abrasion whenever possible. WORKING LOADS: Working loads are the loads that a rope is subjected to in everyday activity. They are normally expressed as a percentage of new rope strength and should not exceed 20%. A point to remember is that a rope may be severely overloaded or shock loaded in use without breaking. However, damage and strength loss may have occurred without any visible indication. The next time the rope is used under normal working loads the acquired weakness can cause it to break. Do not blame the rope, it was simply overloaded and failed from what is known as fatigue. BENDING: Any sharp bend in a rope under load decreases its strength substantially and may cause premature damage and failure. Sheave diameters on rotating sheave blocks should be 10 times the rope diameter for twisted ropes and 8 times the rope diameter for braided ropes. The diameter on fixed pin terminations should be at least 3 times the rope diameter (i.e. the bending radius for 1/2" ropes should be 1-1/2"). RECOMMENDED WORK LOAD LIMIT: For catalogued ropes: WORKING LOAD Rope Construction Percentage of Strength Break 3-strand 20% 8-strand 20% 12-strand 20% Double Braid 20% KNOTS: While it is true that a knot reduces rope strength, it is also true that a knot is a convenient way to accomplish rope attachment. The strength loss is a result of the tight bends that occur in the knot. With some knots, ropes can lose up to 50% of their strength. It is vital that the reduction in strength by the use of knots be taken into account when determining the size and strength of a rope to be used in an application. To avoid knot strength reduction, it is recommended that a rope be spliced according to the manufacturer s instructions. Splice terminations are used in all our ropes to determine new and unused tensile strengths. Therefore, whenever possible, spliced terminations should be used to maximize the rope strength for new and used ropes. ROPE STORAGE: Keep your ropes as clean and dry as possible and store them in a coil away from heat sources. SHOCK LOADS: Shock loads are simply a sudden change in tension from a state of relaxation or low load to one of high load. Any sudden load that exceeds the work load by more than 10% is considered a shock load. The further an object falls, the greater the impact. Synthetic fibers have a memory and retain the effects of being overloaded or shock loaded and can fail at a later time even though loaded within the work load range. 3. RETIREMENT Retire rope from use when it has reached its discard point. One of the most frequently asked questions is When should I retire my rope? The most obvious answer is before it breaks. But, without a thorough understanding of how to inspect it and knowing the load history, you are left making an educated guess. Unfortunately, there are no definitive rules nor industry guidelines to establish when a rope should be retired because there are so many variables that affect rope strength. Factors like load history, bending radius, abrasion, chemical exposure or some combination of those factors, make retirement decisions difficult. Inspecting your rope should be a continuous process of observation before, during and after each use. In synthetic fiber ropes the amount of strength loss due to abrasion and/ or flexing is directly related to the amount of broken fiber in the rope s cross section. After each use, look and feel along every inch of the rope length inspecting for abrasion, glossy or glazed areas, inconsistent diameter, discoloration, and inconsistencies in texture and stiffness. Understanding the Rope Design/Construction: It is first important to understand the design of the specific rope in use. Most ropes are designed to have features specifically tailored to their application. These features can lead to misconceptions during visual inspections. When a rope has a braided cover, it is only possible to visually inspect the cover (which, at best, carries only 50% of the load). Rope designs utilizing HMPE fibers will show initial rapid abrasion until the rope has a fuzzy appearance this appearance actually acts as a protective layer. DETERMINING THE AVERAGE CONDITION OF THE ROPE: The average condition of a rope can be an important factor in determining the rope s retirement. To determine the average condition, walk the entire length of the rope and document its overall condition. Many ropes can be classified by the total amount of overall wear and cleanliness. 57

58 REFERENCE Inspection Rope Inspection and Retirement ABRASION: fig. 1 New rope When the rope is first put into service the outer filaments of the rope will quickly fuzz up (fig. 2). This is the result of these filaments breaking and this roughened surface actually forms a protective cushion and shield for the fibers underneath. This condition should stabilize, not progress. If the surface roughness increases (fig. 3), excessive abrasion is taking place and strength is being lost. As a general rule for single braid ropes, when there is 25% or more wear from abrasion the rope should be retired from service. In other words, if 25% or more of the fiber is broken or worn away the rope should be removed from service. With 3-strand ropes, 10% or more wear is accepted as the retirement point. fig. 2 Used rope fig. 3 Severely abraded rope LOCATE AREAS DEVIATING FROM AVERAGE: Many times a rope will have areas that are routinely used around a bit, through a chock, or buried on the winch drum. These areas typically have different wear patterns than the average condition of the rope. Pay close attention to these areas in the future and frequently examine them for rapid changes in appearance. Look closely at both the inner and outer fibers. When either is worn the rope is obviously weakened. Open the strands and look for powdered fiber, which is one sign of internal wear. Estimate the internal wear to estimate total fiber abrasion. If total fiber loss is 20%, then it is safe to assume that the rope has lost 20% of its strength as a result of abrasion. Internal abrasion can be determined by pulling one strand away from the others and looking for powdered or broken fiber filaments (fig. 4 and fig. 5). To determine the extent of outer fiber damage from abrasion, a single yarn in all abraded areas should be examined. The diameter of the abraded yarn should then be compared to a portion of the same yarn or an adjacent yarn of the same type that has been protected by the strand crossover area and is free from abrasion damage. (fig. 6). fig. 4 Inspect for internal abrasion fig. 5 Inspect for internal abrasion It should be noted that comparing diameters of the yarns does not give an accurate measure of the retained strength. Since the strength should depend on the cross-sectional area of the yarn, a diameter difference alone will underestimate the true abrasion reduction. If the diameter of the abraded yarn is 1/2 the diameter of the internal yarn, the strength of the abraded yarn is nearly 1/4 that of the internal yarn. Determining the extent of fiber loss due to abrasion can be difficult. Since all the strands are twisted, the outer fibers, which are the most prone to abrasion damage, rotate through the rope s length. Therefore on a single strand, the fibers that have been abraded on one pick, are not necessarily the fibers being abraded on the next. However, over a long distance, a single yarn could have the majority of fiber loss due to abrasion. fig. 6 Compare surface yarns with internal yarns 58

59 Rope Inspection and Retirement REFERENCE Inspection GLOSSY OR GLAZED AREAS: Glossing or glazing can occur from two different mechanisms. The most common and relatively benign form of glossing or glazing on a rope is generally caused by compression (fig.7), which typically occurs when the rope is wound on the winch drum, around bits, or through chocks or staples. This form of glossing can be determined on 8- and 12-strand products by compressing the rope length wise forming a bird cage (fig.8). After numerous bird cage cycles the glossy region will become more pliable and begin to resemble normal rope. If the glazed section remains hardened, this could be a sign of heat damage. Heat damaged rope typically has more strength loss than the amount of melted fiber indicates. Fibers adjacent to the melted areas are probably damaged from excessive heat even though they appear normal. It is reasonable to assume that the melted fiber has damaged an equal amount of adjacent unmelted fiber. INCONSISTENT DIAMETER: Inspect for flat areas, bumps or lumps. This can indicate core or internal damage from overloading or shock loads and is usually sufficient reason to replace the rope. fig. 7 Compressed areas fig. 8 Bird cage DISCOLORATION: With use, all ropes get dirty. Be on the lookout for areas of discoloration which could be caused by chemical contamination. Determine the cause of the discoloration and replace the rope if it is brittle or stiff. INCONSISTENCY IN TEXTURE AND STIFFNESS: Can indicate excessive dirt or grit embedded in the rope or shock load damage and is usually reason to replace the rope. TEMPERATURE: When using rope, friction can be your best friend or worst enemy if it is not managed properly. By definition, friction creates heat, the greater the friction the greater the heat buildup. Heat is an enemy to synthetic fiber and elevated temperatures can drastically reduce the strength and/or cause rope melt-through. Charring point: High temperatures can be achieved when surging rope on a capstan or drum end, checking ropes on bitts, and running over stuck or non-rolling sheaves or rollers. Each rope s construction and fiber type will yield a different coefficient of friction (reluctance to slip) in a new and used state. It is important to understand the operational demands and ensure the size, rope construction and fiber type be taken into account to minimize heat buildup. The critical and melting temperatures for synthetic fibers are listed below: Fiber Type Critical Temp. Melting Temp. Polypropylene 250 F 330 F HMPE 150 F 300 F Technora 520 F 930 F* Nylon 325 F F Polyester 350 F F *Charring point Never let ropes under tension rub together or move relative to one another. Enough heat to melt the fibers can buildup and cause the rope to fail as quickly as if it had been cut with a knife. Always be aware of areas of heat buildup and take steps to minimize it; under no circumstances let any rope come in contact with a steam line or any other hot surfaces. The strength of a used rope can be determined by testing but the rope is destroyed in the process so the ability to determine the retirement point before it fails in service is essential. That ability is based on a combination of education in rope use and construction along with good judgment and experience. 59

60 REFERENCE Retirement Checklist Rope Retirement ROPE INSPECTION CHECK LIST VOLUME REDUCTION: Condition and Discard Point Original rope bulk reduced by abrasion Double braid* cover by 50% 12-strand braid by 25% 8-strand plait by 25% 3-strand by 10% Localized or extended areas Diameter inconsistency Localized diameter reduction Flat areas Lumps and bumps in rope Discoloration Localized or extended areas caused by chemical contamination Fiber strands cut Double braid* by three or more adjacent strands cut 12-strand braid by two or more adjacent strands cut 8-strand plait by one or more adjacent strands cut 3-strand by one or more adjacent strands cut Inconsistency of texture Localized or extended areas of stiffness cut strands: compression: Rope displaying original bulk. Rope displaying 25% strand volume reduction from abrasion rope should be retired from service. Rope strands showing full volume. Rope strands reduced by 25% abrasion. Pulled strands should be worked back into the rope so they won t continue to snag and eventually cut. Rope displays two adjacent cut strands. This rope should either be retired or the cut section should be removed and the remaining rope re-spliced. Rope exhibits fiber-set from compression. A slight sheen is visible. This is not a permanent characteristic and can be eliminated by flexing the rope. This condition should not be confused with glazed or melted fiber. Glossy or glazed fiber Localized or extended areas * Refers to double braids that have both core and cover strength members MELTING OR GLAZING: Damage depicted at right caused by excessive heat which melted and fused the fibers. This area will be extremely stiff. Unlike fiber compression, melting damage cannot be mitigated by flexing the rope. Melted areas must be cut out and rope respliced or the rope must be retired. 60

61 Glossary REFERENCE Glossary ABRASION RESISTANCE: The ability of a fiber or rope to withstand surface wear and rubbing due to motion against other fibers or rope components (internal abrasion) or a contact surface such as wraps on a winch drum (external abrasion), which can be a portion of the rope itself. BLOCK CREEL: A method of rope making where a given length of rope is produced from a ropemaking machine where all the subcomponents of the rope structure are continuous without splices. The term arises from filling all creels or bobbins to maximum (block creels) and ending rope making when the first one empties. BRAID: n. A rope or textile structure formed by a braiding process. v. The intertwining of strands in a braiding process to produce a tubular rope structure. BRAID, DOUBLE: A rope constructed from an inner hollow braided rope (core) which has another hollow braided rope constructed around its exterior (cover). Core and cover may be either plain or twill braid and both share any load on the rope, but not necessarily in equal amounts. Also called braid-on-braid. BRAID, HOLLOW (Also: Braid, Single; Braid, Diamond): A single braid rope construction of either plain or twill braid. The center is hollow. On the surface all strands are parallel to the axis. BRAID, SOLID: A cylindrical braid in which each strand alternately passes under and over one or more of the other strands of the rope while all strands are rotating around the axis with the same direction of rotation. On the surface, all strands appear to be parallel to the axis. BRAIDER SPLICE: In a braided rope, the continuation of a single interrupted strand (or multiple strands) with another identical strand, which is braided from the same carrier. The interrupted and replacement strands are arranged in parallel over some distance, and are buried, or tucked, into the braid so as to secure them into the braid. To maintain maximum strength, the strands should overlap one another for a sufficient distance. BREAKING LENGTH: A convenient term for comparing the strength-to-weight ratio of textile structures from one product to another. The calculated length of a specimen whose weight is equal to the breaking load. BREAKING STRENGTH: For cordage, the nominal force (or load) that would be expected to break or rupture a single specimen in a tensile test conducted under a specified procedure. On a group of like specimens it may be expressed as an average or as a minimum based on statistical analysis. Note: Breaking force refers to an external force applied to an individual specimen to produce rupture, whereas breaking strength preferably should be restricted to the characteristic average force required to rupture several specimens of a sample. While the breaking strength is numerically equal to the breaking force for an individual specimen, the average breaking force observed for two or more specimens of a specific sample is referred to or used as the breaking strength of the sample. BREAKING STRENGTH, MINIMUM: Cordage Institute standard. A value based on a statistically significant number of breaking load tests and the standard deviation used to establish the minimum value. CLASS I ROPE: Rope constructions produced with non high modulus fibers that impart the strength and stretch characteristics to the rope which have tenacities of 15 grams/denier (gpd) or less and a total stretch at break of 6% or greater. Typical Class I ropes are produced with traditional fibers such as: olefin (polypropylene or polyethylene), nylon, and polyester. These fibers can be used in combination or singularly in the various rope constructions such as: 3-strand, 8-strand, 12-strand braids, double braids, or coredependent braids. CLASS II ROPE: Rope constructions produced with high modulus fibers that impart the strength and stretch characteristics to the rope which have tenacities greater than 15 grams/denier (gpd) and a total stretch at break of less than 6%. Typical Class II ropes are produced with: HMPE (Dyneema fiber or Spectra ), Aramid (Technora or Kevlar ), LCP (Vectran ), PBO (ZYLON ), and Carbon fibers. These fibers can be used in combination or singularly in the various ropes constructions such as: 3-strand, 8-strand, 12-strand, double braids, or core-dependent braids. CORE-DEPENDENT BRAIDS: Cover braided rope constructions that utilize an internal core member or members to create the strength and stretch characteristics of the rope. The primary function of the external cover braid is to contain the core or cores and create the degree of rope firmness desired. Based on the fiber or combination of fibers used in the cover braid, the following characteristics of the rope can be altered: coefficient of friction, wear resistance, specific gravity, and heat resistance due to friction. Core-dependent braided ropes typically have internal strength members produced with parallel bundled fiber cores, a single braid core, multiple braid cores, or multiple 3 strand cores. This type of rope construction can be produced with traditional fibers, high modulus fibers, or combinations of both fiber groups, and offers the potential of creating a wide range of design parameters. CYCLE LENGTH: The length along the axis required for a strand to make one revolution around the rope. DEGRADATION: The loss of desirable physical properties by a textile material due to some process of physical/chemical phenomenon. DENIER: The system used internationally for the numbering of silk and man-made filament yarns, except glass yarns. It is the primary unit for determining the size of a yarn and is based on its linear density. Officially, it is defined as the number unit weights of 0.05 grams per 450-meter length. Denier is equivalent numerically to the number of grams per 9,000 meters. In the English numbering system, 1 denier equals 4,464,528 yards to the pound. Denier is also used to indicate the thickness of a man-made fiber staple. For example, a staple is said to be 3 denier if 1,488,176 linear yards of the staple (were it continuous) would weigh one pound. The metric equivalent is Tex, the grams mass of 10,000 meters of yarn. DYNAMIC LOAD (for cordage): Any rapidly applied load that increases the load significantly above the normal static load when lifting or suspending a weight. Dynamic effects are greater on a low elongation rope such as manila than on a higher elongation rope such as nylon, and greater on a shorter rope than on a longer one. Also, any rapidly applied load to cordage that may change its properties significantly when compared to slowly applied loads. EXTRUSION: For polymer filaments. The process of producing filaments by forcing a polymer through a die. FATIGUE: The tendency of a material to weaken or fail during alternate tension-tension or tension-compression cycles. In cordage, particularly at loads well below the breaking strength, this degradation is often caused by internal abrasion of the fibers and yarns but may also be caused by fiber damage due to compression. Some fibers develop cracks or splits that cause failure, especially at relatively high loads. FIBER: A long, fine, very flexible structure that may be woven, braided, or twisted into a variety of fabrics, twine, cordage or rope. FINISH: An oil, emulsion, lubricant or the like, applied to fibers to prevent damage during textile processing or to improve performance during use of the product. HYDROLYSIS: The attack of the water ions on polymeric molecules, which results in polymer chain scission and loss of the fiber s physical properties. LAID ROPES: Ropes made by twisting of three or more strands together with the twist direction opposite that of the strands. LAY LENGTH: The actual distance required to make one complete revolution around the axis in any element in a strand, cord or rope. CONTINUED ON NEXT PAGE 61

62 REFERENCE Glossary Glossary CONTINUED FROM PREVIOUS PAGE LIQUID CRYSTAL POLYMER (LCP): A thermoplastic multifilament yarn spun from a proprietary liquid crystal polymer. LCP fiber is five times stronger than steel and ten times stronger than aluminum for its weight. It has no creep and excellent chemical resistance. MONOFILAMENT: A yarn consisting of one or more heavy, coarse, continuous filaments produced by the extrusion of a polymeric material suitable for fiber production. MULTIFILAMENT: A yarn consisting of many fine continuous filaments produced by the spinning of a polymeric material suitable for fiber production. NAPPING: A process that raises the surface fibers of a fabric, cord or rope by means of rapid passage over metal surfaces. NOMINAL SIZE: A designation that has been determined by the measurement of another property. For rope, diameter is considered a nominal property and is based upon the measurement of the linear density of the rope in accordance with some standard. NYLON (PA) FIBER: A manufactured fiber in which the fiber-forming substance (polyamide) is characterized by recurring amide groups as an integral part of the polymer chain. The two principal types of nylon fiber used in rope production are type 6.6 and type 6. The number in the type designation is indicative of the number of carbon atoms separating the acid and amine groups in the polymer chain. ph: Value indicating the acidity or alkalinity of a material. A ph of 7.0 is neutral; less than 7.0 is acidic, and more than 7.0 is basic. POLYESTER (PET) FIBER: A manufactured fiber in which the fiber-forming substance (polyester) is characterized by a long chain polymer having 85% by weight of an ester of a substituted aromatic carboxylic acid. POLYETHYLENE (PE): A polyolefin resin, produced from the polymerization of ethylene gas, and used in the production of manufactured fiber. Polyethylene is similar to polypropylene in its properties but has a higher specific gravity and a lower melting point. POLYETHYLENE, EXTENDED CHAIN: A polyolefin fiber that is characterized by the gel spinning of a very high and narrow molecular weight distribution fiber to produce extremely high tenacity material. The strength of the fiber is approximately 10 times that of steel on a weight-for-weight basis. POLYMER: A long chain molecule from which man-made fibers are derived; produced by linking together molecular units called monomers. POLYPROPYLENE (PP): A polyolefin resin, produced from the polymerization of propylene gas, and used in the production of manufactured fiber. Polypropylene may be extruded into a number of fiber forms for use by the ropemaker. ROPE, EIGHT-STRAND PLAITED: A rope of which the strands are generally plaited in pairs, and mainly used for marine purposes. ROPE, FIBER: A compact but flexible, torsionally balanced structure produced from strands that are laid, plaited or braided together to produce a product that serves to transmit a tensile force between two points. Generally greater than 3/16" diameter. SPECIFIC GRAVITY: Ratio of the mass of a material to the mass of an equal volume of water. SPLICE: The joining of two ends of yarn, strand or cordage by intertwining or inserting these ends into the body of the product. An eye splice may be formed by using a similar process to join one end into the body of the product. STRAND: The largest individual element used in the final rope-making process and obtained by joining and twisting (or braiding) together several yarns or groups of yarns. STAPLE: Natural fibers of cut lengths from filaments of man-made fibers. The staple length of natural fibers varies from less than 1" for some cotton fibers to several feet for some hard fibers. Man-made fibers are cut to a definite length, usually about 1-1/2" but occasionally down to 1", so they can be processed on the cotton, woolen and worsted systems. The term staple (fiber) is used in the textile industry to distinguish natural or cut length man-made fibers from filament. TENSILE STRENGTH, MINIMUM: A value based on a large number of breaking force tests representing a value that is two standard deviations below the mean. See: Breaking Strength, Minimum. TORQUE: A force or a combination of forces that produces or tends to produce a twisting or rotating motion. When used in describing the performance or characteristic of yarn, the term torque refers to that character which tends to make it turn on itself as a result of twisting. TWIST: The number of turns about the axis applied to a fiber, yarn, strand or rope over a given length to combine the individual elements into a larger and stronger structure. The direction of rotation about the axis denoted as S (left hand) or Z (right hand) twist. TWIST, BALANCED: In a plied yarn or cord, an arrangement of twist which will not cause the yarn or cord to twist on itself when held in the form of an open loop. TWISTING: The process of combining two or more parallel textile elements by controlling the lineal and rotational speeds of the material to produce a specific twist level. WORKING LOAD LIMIT: The working load that must not be exceeded for a particular application as established by an engineer, supervisor, regulatory or standards setting agency. YARN: A generic term for a continuous strand of textile fibers, filaments or material in a form suitable for intertwining to form a textile structure via any one of a number of textile processes. YARN, SINGLE: The simplest textile structure available for processing into rope, twine or cordage. YARN, PLIED: A yarn formed by twisting together two or more single yarns in one operation in a direction opposite to the twist direction of the single yarns to produce a balanced structure. CONVERSION CHART SIZE Inches x = Millimeters Millimeters x = Inches LENGTH Feet x = Meters Meters x = Feet WEIGHT Pounds x = Kilograms Kilograms x = Pounds YARDAGE Pounds per 100 Feet x = Kilograms per 100 Meters Kilograms per 100 Meters x = Pounds per 100 Feet STRENGTH Pounds Force x = Newtons Kilograms Force x = Newtons Pounds Force x = Kilonewtons Tonnes Force x = Pounds Force Pounds Force x = Tonnes Force TEMPERATURE Celsius = x ( Fahrenheit 32 ) Fahrenheit = 1.8 x Celsius

63 The best resource for high performance ropes on the web We ve put all our information here for easy downloading for anyone with access to the web. We think it is the best resource for information on high performance synthetic ropes available anywhere. If you re looking for information rope specifications, product breakdowns by application and industry, technical papers, or splicing instructions, this is the place to go. TECHNICAL BULLETINS: > AmSteel -Blue FAQ > DPX Innovative Fiber Technology > Elongation and Components of Stretch on a Loaded Rope > Fiber Characteristics Comparison > HMPE Rope Comparison Effects of Post Production Process > HMPE Rope Comparison Steelite Extra and Superline Steelite Extra > HMPE Rope Comparison Design vs. Performance > HMPE Ropes and Chocks Closed vs. Roller > How Cold Can You Go? > Innovative Chafe Protection Solutions for High Performance Ropes > Proper Handling Techniques for 8-Strand High Performance Ropes on H-Bitts > Rope Handling > Rope Inspection and Retirement > Samthane Coating > Standards for Strength and Usage > Surface Preparation for Synthetic Ropes > Tanker Mooring with AmSteel -Blue in High Temperature Climates > Type Approval Certificate vs. Witnessed Third Party Certificate 63

64 2090 Thornton Street Ferndale, WA U.S.A. (T) (F) REGISTERED TRADEMARK NOTICES: AmSteel, Neutron, and Proton are registered trademarks of Samson Rope Technologies. DPX is a trademark of Samson Rope Technologies. Dyneema is a registered trademark of Royal DSM N.V. Dyeenma is DSM's high performance polyethylene product. Spectra is a registered trademark of Honeywell Corporation. Technora is a registered trademark of Teijin, Ltd. Vectran is a registered trademark of Kuraray Co., Ltd. Zylon PBO is a registered trademark of Toyobo Co., Ltd. Cordura is a registered trademark for durable fabrics Samson Rope Technologies SWD # M 03/08 Printed in the U.S.A.

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