Safety Equipment Institute SEI Certification Program Manual Section 22: Fall Protection Program
SEI Certification Program Manual Section 22: Fall Protection Program Date of Issue: 01.12.12 22.0 Fall Protection Program Standards ANSI/ASSE Z359.11-2014 Full Body Harnesses ANSI/ASSE Z359.15-2014 Single Anchor Lifelines and Fall Arresters for Personal Fall Arrest Systems CAN/CSA Z259.10-12 Full Body Harnesses CAN/CSA Z259.2.5-12 Fall Arresters and Vertical Lifelines CAN/CSA Z259.2.2-98 (R2009) Self-Retracting Devices CAN/CSA Z259.11-05 (R2015) Energy Absorbers & Lanyards CAN/CSA Z259.12-11 Connecting Components for Personal Fall Arrest Systems ANSI/ASSE Z359.12-2009 Connecting Components for Personal Fall Arrest Systems ANSI/ASSE Z359.13-2013 Personal Energy Absorbers and Personal Energy Absorbing Lanyards ANSI/ASSE Z359.14-2014 Self-Retracting Devices for Personal Fall Arrest and Rescue Systems ASTM F887-13 Arc Resistant Full Body Harnesses & Energy Absorbing Lanyards NFPA 1983-2012 Life Safety Rope & Equipment For Emergency Services 22.1 Certification Submittal Package A Certification Submittal Package shall include an SEI Certification Submittal form (see Section 22A: SEI Certification Submittal Form) and a Components & Materials Description Checklist form (see Section 22B: General Components & Materials Description Checklist) and a User Guide and Label Checklist form for NFPA standards (see Section 22C: User Guide and Label Checklist) for each product model, variant or accessory being submitted. Completion of the submittal package serves four primary purposes: 1. The submittal package provides SEI and the SEI Quality Assurance Auditor with a description of new, modified and continued products to be selected during the audit. 2. The information provided by the manufacturer in the full submittal package confirms to SEI the product design and components remain unchanged since the submitted product was last tested and certified. 3. Receipt of the submittal package by the testing laboratory, from SEI, serves as the laboratory s authorization to begin testing the product(s) and allows laboratory personnel to verify that the correct product samples have been received. 4. The return of a signed copy of the submittal form from the testing laboratory provides SEI with a record of the date testing was completed on the product model. Over the life of the product, subsequent submittal packages shall document that the product model submitted for certification testing is identical to samples previously tested, except where Class I model changes have been tested and documented through the submission of additional SEI submittal packages or documented Class II changes have been made. It is therefore necessary that each submittal to SEI 2 of 18
SEI Certification Program Manual Section 22: Fall Protection Program Date of Issue: 01.12.12 include sufficient product description information, which is achieved by a complete components and materials listing to uniquely and unambiguously identify the product model in question. SEI Certification Submittal Form Each submittal form must be identified as either (1) initial certification, (2) annual recertification, (3) Class I change, or (4) Class II change. Finished product manufacturing facilities (assembly) located at a different address (i.e. suppliers or company-owned factories) shall be identified in Section 3 of the submittal form. The SEI Certification Submittal Form shall be signed by the authorized manufacturer representative within the participating company having the authority to authorize expenditures for testing. Components & Materials Description List The product description information may be (a) listed on the Component and Materials Description Checklist form, (b) provided as a separate listing by the manufacturer (i.e. Bill of Materials), or (c) appropriate engineering drawings/ specification sheets. Use of Section 22B: General Components and Materials Description Checklist form is recommended. The following information is to be included on each Components & Materials List. Brief examples are provided for guidance. A. Description of Major Components All major components and materials shall be identified and described. Where possible, include brand name and part number, supplier name and location. B. Primary Materials Materials used in the construction of major components shall be identified. Identification shall include trade names, if applicable. All changes shall be reported to SEI for evaluation and possible action. C. Manufacturing Locations All locations in which the product model is manufactured or assembled must be identified on the SEI Certification Submittal Form. If major components are manufactured by another company and purchased by the SEI participants, the name and address of the manufacturing facility and contact name shall be identified on the Components & Materials Description Checklist. D. Specification Sheets or Technical Bills of Materials Product specification sheets or technical bills of materials (BOM) may be included with the SEI Certification Form in addition to the Components & Materials description checklist to fulfill some or all other requirements noted above. In the case of annual recertification, the appropriate documents (i.e., submittal form and components and materials listing or BOM) shall be prepared prior to the sample selection audit and available to the auditor during the audit for reference and confirmation of product. 3 of 18
SEI Certification Program Manual Section 22: Fall Protection Program Date of Issue: 01.12.12 Confidentiality All product information received by SEI staff, the SEI Quality Assurance Auditor, or the SEI testing laboratory shall be considered confidential and shall not be released to any third party without written authorization to do so (with the exceptions noted Section 3: Manufacturer s Agreement for response to a subpoena, court order or other compulsory process). 22.2 Fall Protection Program Codes SEI utilizes SEI Reference Numbers internally to identify each SEI participant and their unique models and variants. The first set of two or three letters/numbers indicates which standard program code the model/variant is being certified against. The second set of three letters indicates the SEI participant's unique identification. The third set of numbers is assigned by SEI to identify each model (see definition below) being certified. eg: BBH ABC 03 eg: BBH ABC V03 Where BBH identifies the standard program code Where ABC identifies the unique participant identification Where 03 identifies the model submitted for certification Where V03 identifies the model as the third variant (V03) for this Participant Identification (ABC) SEI Reference Program Code Standard Description Product Type Standard FAH Standard on Full Body Harnesses Full Body Harnesses ANSI/ASSE Z359.11 FAV Standard on Single Anchor Lifelines and Fall Arresters Single Anchor Lifelines and Fall Arresters ANSI/ASSE Z359.15 FCV FCR FCH FCL Standard on Fall Arresters, Vertical Lifelines, and Rails Standard on Self-Retracting Devices Standard on Full Body Harnesses Standard on Energy Absorbers and Lanyards Fall Arresters, Vertical Lifelines and Rails Self-Retracting Devices for Personal Fall Arrest Systems CAN/CSA Z259.2.5 CAN/CSA Z259.2.2 Full Body Harnesses CAN/CSA Z259.10 Energy Absorbers & Lanyards CAN/CSA Z259.11 4 of 18
SEI Certification Program Manual Section 22: Fall Protection Program Date of Issue: 01.12.12 SEI Reference Program Code QCB, QCR, QCH, QCW QAB, QAR, QAH, QAW FAL FAR FPE RHH Standard Description Product Type Standard Standard on Connecting Components for Personal Fall Arrest System Standard on Connecting Components for Personal Fall Arrest System Standard on Personal Energy Absorbers and Energy Absorbing Lanyards Safety requirements for Self-Retracting Devices for personal Fall Arrest and Rescue Systems Standard Specifications for Personal Climbing Equipment Standard on Life Safety Rope and Equipment for Emergency Services Connecting Components for Personal Fall Arrest Systems Connecting Components for Personal Fall Arrest Systems Personal Energy Absorbers and Personal Energy Absorbing Lanyards Self-Retracting Devices for Personal Fall Arrest and Rescue Systems Arc Resistant Full Body Harnesses & Energy Absorbing Lanyards Life Safety Rope & Equipment for Emergency Services CAN/CSA Z259.12 ANSI/ASSE Z359.12 ANSI/ASSE Z359.13 ANSI/ASSE Z359.14 ASTM F887 NFPA 1983 22.3 Definition of a Model Model is the collective term used to identify a group of protective devices of the same basic design and components from a single applicant produced by the same manufacturing and quality assurance procedures that are covered by the same certification. Any characteristic that affects the device s performance under the limits of the current certification standards constitutes a different model. For purposes of the SEI Certification Program, the above definition of the term model uses performance characteristics as the basic criteria. 22.4 Application & Annual Certification Fees Testing shall be performed annually. When an initial submittal package is submitted to SEI, the Application Fees and Annual Participation Fees (See Section 7: Annual Participation Fees) are due. Upon completion of initial testing, Annual Model Certification Fees are due. 5 of 18
SEI Certification Program Manual Section 22: Fall Protection Program Date of Issue: 01.12.12 The following is a schedule of application fees and annual model certification fees that apply to the ANSI/ASSE, CAN/CSA and ASTM Fall Protection program(s): Model Type Submittal Type Application Fee Annual Model Certification Fees Initial $250 $395 Base Model Class I Change $50 N/A Class II Change $50 N/A Initial $125 $125 Variant Model Class I Change $50 N/A Class II Change $50 N/A Initial $125 $125 Accessory Model Class I Change $50 N/A Class II Change $50 N/A The following is a schedule of application fees and annual model certification fees that apply to the NFPA Fall Protection program: Model Type Submittal Type Application Fee Annual Model Certification Fees Initial $250 $435 Base Model Class I Change $50 N/A Class II Change $50 N/A Initial $60 $125 Variant Model Class I Change $50 N/A Class II Change $50 N/A Initial $60 $60 Accessory Model Class I Change $50 N/A Class II Change $50 N/A 6 of 18
SEI Certification Program Manual Section 22: Fall Protection Program Date of Issue: 01.12.12 22.5 ANSI/ASSE Z359.11, ANSI/ASSE Z359.12, ANSI/ASSE Z359.13, ANSI/ASSE Z359.14, ANSI/ASSE Z359.15 A. Definition of Model Qualified Elements including rings, D-rings, circular rings, oval rings, carabineers, snaphooks, buckles, adjusters, webbing, rope (including fiber rope and wire rope): Characteristics that should affect the model s ability to meet the performance requirements of the certification standard and therefore require a new model designation: 1. Changes in basic design 2. Changes in material type 3. Changes in dimensions 4. Changes in finish Characteristics that should not affect the model s ability to meet the performance requirements of the certification standard and therefore would not require a new model designation: 1. Changes in webbing color 2. Same qualified element (component) from different source of supply Note: The word same is interpreted to mean that webbing and hardware are manufactured to identical engineering specifications that include identical material, dimensions, finish and other requirements. Examples of Major components: 1. Material type 2. Construction method 3. Surface finish 4. Size and shape 5. Strength Full Body Harnesses Characteristics that should affect the model s ability to meet the performance requirements of the certification standard and therefore require a new model designation: 1. Changes in basic design/configuration 2. Changes in hardware (material, dimensions, design) 3. Changes in webbing material, composition and thickness 4. Type of harness hardware and placement 5. Changes in stitch patterns 6. Changes in thread 7 of 18
SEI Certification Program Manual Section 22: Fall Protection Program Date of Issue: 01.12.12 Characteristics that should not affect the model s ability to meet the performance requirements of the certification standard and therefore would not require a new model designation: 1. Changes in color 2. Changes in non-fall protection accessories such as comfort padding and positioning rings 3. Same webbing or hardware from different source of supply Note: The word same is interpreted to mean that leather, webbing or hardware is manufactured to identical engineering specifications that include identical material,, dimensions, finish and other requirements Examples of Major components: Not applicable for this product Energy Absorbing Lanyards Characteristics that should affect the model s ability to meet the performance requirements of the certification standard and therefore require a new model designation: 1. Changes in basic design/configuration/energy dissipation technology 2. Changes in hardware (material, dimensions, design) 3. Changes in webbing material, composition and thickness 4. Changes in stitch patterns 5. Changes in thread Characteristics that should not affect the model s ability to meet the performance requirements of the certification standard and therefore would not require a new model designation: 1. Changes in color 2. Same webbing or hardware from different source of supply Note: The word same is interpreted to mean that leather, webbing or hardware is manufactured to identical engineering specifications that include identical material,, dimensions, finish and other requirements Examples of Major components: Not applicable for this product 8 of 18
SEI Certification Program Manual Section 22: Fall Protection Program Date of Issue: 01.12.12 Self-Retracting Lanyards Characteristics that should affect the model s ability to meet the performance requirements of the certification standard and therefore require a new model designation: 1. Changes in basic design/configuration 2. Changes in hardware (material, dimensions, design) 3. Changes in pay-out line material, composition and/or dimensions Characteristics that should not affect the model s ability to meet the performance requirements of the certification standard and therefore would not require a new model designation: 1. Changes in color 2. Same hardware from different source of supply Note: The word same is interpreted to mean that leather, webbing or hardware is manufactured to identical engineering specifications that include identical material,, dimensions, finish and other requirements Examples of Major components: Not applicable for this product Fall Arresters Characteristics that should affect the model s ability to meet the performance requirements of the certification standard and therefore require a new model designation: 1. Changes in basic design/configuration 2. Changes in hardware (material, dimensions, design) 3. Changes in vertical lifeline material, composition and/or dimensions Characteristics that should not affect the model s ability to meet the performance requirements of the certification standard and therefore would not require a new model designation: 1. Changes in color 2. Same hardware from different source of supply Note: The word same is interpreted to mean that leather, webbing or hardware is manufactured to identical engineering specifications that include identical material,, dimensions, finish and other requirements Examples of Major components: Not applicable for this product 9 of 18
SEI Certification Program Manual Section 22: Fall Protection Program Date of Issue: 01.12.12 B. Laboratory Testing Fees/ Attributes & Variables SEI currently has approved two (2) laboratories that may conduct testing to this standard. The following information should be used as guide when selecting a lab to test your models. The schedule of rates for testing at these laboratories can be used to estimate the total cost of testing for all the models that are to be certified. 10 of 18
SEI Certification Program Manual Section 22: Fall Protection Program Date of Issue: 01.12.12 22.6 CAN/CSA Z259.2.5, CAN/CSA Z35.2.2, CAN/CSA Z259.10, CAN/CSA Z259.11, CAN/CSA Z259.12 A. Definition of Model Qualified Elements including rings, D-rings, circular rings, oval rings, carabineers, snaphooks, buckles, adjusters, webbing, rope (including fiber rope and wire rope): Characteristics that should affect the model s ability to meet the performance requirements of the certification standard and therefore require a new model designation: 1. Changes in basic design 2. Changes in material type 3. Changes in dimensions 4. Changes in finish Characteristics that should not affect the model s ability to meet the performance requirements of the certification standard and therefore would not require a new model designation: 1. Changes in webbing color 2. Same qualified element (component) from different source of supply Note: The word same is interpreted to mean that webbing and hardware are manufactured to identical engineering specifications that include identical material, dimensions, finish and other requirements. Examples of Major components: 1. Material type 2. Construction method 3. Surface finish 4. Size and shape 5. Strength 11 of 18
SEI Certification Program Manual Section 22: Fall Protection Program Date of Issue: 01.12.12 Full Body Harnesses Characteristics that should affect the model s ability to meet the performance requirements of the certification standard and therefore require a new model designation: 1. Changes in basic design/configuration 2. Changes in hardware (material, dimensions, design) 3. Changes in webbing material, composition and thickness 4. Type of harness hardware and placement 5. Changes in stitch patterns 6. Changes in thread Characteristics that should not affect the model s ability to meet the performance requirements of the certification standard and therefore would not require a new model designation: 1. Changes in color 2. Changes in non-fall protection accessories such as comfort padding and positioning rings 3. Same webbing or hardware from different source of supply Note: The word same is interpreted to mean that leather, webbing or hardware is manufactured to identical engineering specifications that include identical material,, dimensions, finish and other requirements Examples of Major components: Not applicable for this product Energy Absorbing Lanyards Characteristics that should affect the model s ability to meet the performance requirements of the certification standard and therefore require a new model designation: 1. Changes in basic design/configuration/energy dissipation technology 2. Changes in hardware (material, dimensions, design) 3. Changes in webbing material, composition and thickness 4. Changes in stitch patterns 5. Changes in thread Characteristics that should not affect the model s ability to meet the performance requirements of the certification standard and therefore would not require a new model designation: 1. Changes in color 2. Same webbing or hardware from different source of supply Note: The word same is interpreted to mean that leather, webbing or hardware is 12 of 18
SEI Certification Program Manual Section 22: Fall Protection Program Date of Issue: 01.12.12 manufactured to identical engineering specifications that include identical material, dimensions, finish and other requirements Examples of Major components: Not applicable for this product Self-Retracting Lanyards Characteristics that should affect the model s ability to meet the performance requirements of the certification standard and therefore require a new model designation: 1. Changes in basic design/configuration 2. Changes in hardware (material, dimensions, design) 3. Changes in pay-out line material, composition and/or dimensions Characteristics that should not affect the model s ability to meet the performance requirements of the certification standard and therefore would not require a new model designation: 1. Changes in color 2. Same hardware from different source of supply Note: The word same is interpreted to mean that leather, webbing or hardware is manufactured to identical engineering specifications that include identical material,, dimensions, finish and other requirements Examples of Major components: Not applicable for this product Fall Arresters Characteristics that should affect the model s ability to meet the performance requirements of the certification standard and therefore require a new model designation: 1. Changes in basic design/configuration 2. Changes in hardware (material, dimensions, design) 3. Changes in vertical lifeline material, composition and/or dimensions Characteristics that should not affect the model s ability to meet the performance requirements of the certification standard and therefore would not require a new model designation: 1. Changes in color 13 of 18
SEI Certification Program Manual Section 22: Fall Protection Program Date of Issue: 01.12.12 2. Same hardware from different source of supply Note: The word same is interpreted to mean that leather, webbing or hardware is manufactured to identical engineering specifications that include identical material,, dimensions, finish and other requirements Examples of Major components: Not applicable for this product B. Laboratory Testing Fees/ Attributes & Variables SEI currently has approved two (2) laboratories that may conduct testing to this standard. The following information should be used as guide when selecting a lab to test your models. The schedule of rates for testing at these laboratories can be used to estimate the total cost of testing for all the models that are to be certified. 14 of 18
SEI Certification Program Manual Section 22: Fall Protection Program 22.7 ASTM F887 Arc Resistant Full Body Harnesses and Energy Absorbing Lanyards A. Definition of Model Date of Issue: 01.12.12 Full Body Harnesses Characteristics that should affect the model s ability to meet the performance requirements of the certification standard and therefore require a new model designation: 1. Changes in basic design/configuration 2. Changes in hardware (material, dimensions, design) 3. Changes in webbing material, composition and thickness 4. Type of harness hardware and placement 5. Changes in stitch patterns 6. Changes in thread Characteristics that should not affect the model s ability to meet the performance requirements of the certification standard and therefore would not require a new model designation: 1. Changes in color 2. Same webbing or hardware from different source of supply Note: The word same is interpreted to mean that leather, webbing or hardware is manufactured to identical engineering specifications that include identical material,, dimensions, finish and other requirements Examples of Major components: Not applicable for this product Energy Absorbing Lanyards Characteristics that should affect the model s ability to meet the performance requirements of the certification standard and therefore require a new model designation: 1. Changes in basic design/configuration/energy dissipation technology 2. Changes in hardware (material, dimensions, design) 3. Changes in webbing material, composition and thickness 4. Changes in stitch patterns 5. Changes in thread 15 of 18
SEI Certification Program Manual Section 22: Fall Protection Program Date of Issue: 01.12.12 Characteristics that should not affect the model s ability to meet the performance requirements of the certification standard and therefore would not require a new model designation: 1. Changes in color 2. Same webbing or hardware from different source of supply Note: The word same is interpreted to mean that leather, webbing or hardware is manufactured to identical engineering specifications that include identical material,, dimensions, finish and other requirements Examples of Major components: Not applicable for this product B. Laboratory Testing Fees/ Attributes & Variables SEI currently has approved one (1) laboratory that may conduct testing to this standard. The following information should be used as guide when selecting a lab to test your models. The schedule of rates for testing at this laboratory can be used to estimate the total cost of testing for all the models that are to be certified. Intertek ASTM F877-13 Test Description Paragraph # of Attributes & Variables N/C and AQL Harness Requirements Sizes Harnesses 18.1 $50.00 1 sample (+) Major B: 2.5 Electric Arc Test 18.3 1 sample (++) Critical: 0.0 Tensile Test - Snaphooks 19.4 Major A: 1.0 Hardness Test 19.6 Minor: 4.0 (+) One (1) sample required for all test/measurements/design requirements. (#) One (1) sample of each type of snaphook used in the end product. (++) One (1) sample of each type of component used in the end product (i.e., D-rings, buckles, etc.) (##) One (1) sample of each type of adjuster used in the end product. Energy Absorbing Lanyard Requirements - TBD 16 of 18
SEI Certification Program Manual Section 22: Fall Protection Program Date of Issue: 01.12.12 22.8 NFPA 1983 Life Safety Rope & Equipment A. Definition of Model Harnesses & Belts Characteristics that should affect the model s ability to meet the performance requirements of the certification standard and therefore require a new model designation: 1. Changes in basic design/configuration 2. Changes in hardware (material, dimensions, design) 3. Changes in webbing material, composition and thickness 4. Type of harness hardware and placement 5. Changes in stitch patterns 6. Changes in thread Characteristics that should not affect the model s ability to meet the performance requirements of the certification standard and therefore would not require a new model designation: 1. Changes in color 2. Same webbing or hardware from different source of supply Note: The word same is interpreted to mean that leather, webbing or hardware is manufactured to identical engineering specifications that include identical material,, dimensions, finish and other requirements Examples of Major components: Not applicable for this product Rope & Throwlines Characteristics that should affect the model s ability to meet the performance requirements of the certification standard and therefore require a new model designation: 1. Changes in rope/throwline fiber material, composition, thickness 2. Changes in type of rope/throwline weave Characteristics that should not affect the model s ability to meet the performance requirements of the certification standard and therefore would not require a new model designation: 1. Changes in color Examples of Major components: 17 of 18
SEI Certification Program Manual Section 22: Fall Protection Program Date of Issue: 01.12.12 Not applicable for this product Manufactured Systems, Straps, Auxiliary Equipment, Victim Extrication Devices, Litters, Escape Webbing, Fire Escape Webbing, Escape Systems, Manufacturer-Supplied Eye Terminations, Belay Devices, Escape Anchor Devices: Characteristics that should affect the model s ability to meet the performance requirements of the certification standard and therefore require a new model designation: 1. Changes in basic design 2. Changes in material type 3. Changes in dimensions 4. Changes in finish Characteristics that should not affect the model s ability to meet the performance requirements of the certification standard and therefore would not require a new model designation: 1. Changes in webbing color 2. Same qualified element (component) from different source of supply Note: The word same is interpreted to mean that webbing and hardware are manufactured to identical engineering specifications that include identical material, dimensions, finish and other requirements. Examples of Major components: 1. Material type 2. Construction method 3. Surface finish 4. Size and shape 5. Strength B. Laboratory Testing Fees/ Attributes & Variables SEI currently has approved one (1) laboratory that may conduct testing to this standard. The following information should be used as guide when selecting a lab to test your models. The schedule of rates for testing at this laboratory can be used to estimate the total cost of testing for all the models that are to be certified. 18 of 18
Intertek ANSI/ASSE Z359.11-2014: Safety Requirements for Full Body Harnesses 1. requirements are either 1-ea (verification) or 3-ea (qualification) per ANSI/ASSE 359.7-2011 unless noted 2. Pricing per model/type and/or per test orientation and /or per anchoring method General Requirements 3.1 -- Design Requirements 3.2 -- Attachment Element Requirements 3.3 -- Component Requirements Qualification Test Fee $ (3 samples) 3.2.1.3.1 4.3.3 Dynamic Feet First Drop Test 3 550 3.2.1.3.2 4.3.4 Dynamic Head First Drop Test 3 550 3.2.1.3.3 4.3.5 Static Feet First 3 650 3.2.1.3.4 4.3.6 Fall Arrest Indicator (purchase EAL for test) 3 650 3.2.2.3.1 4.3.3 Dynamic Feet First Drop Test 3 550 3.2.2.3.2 4.3.5 Static Feet First 3 650 3.2.2.3.3 4.3.6 Test Section Test Description Dorsal Attachment (3.2.1) Sternal Attachment (3.2.2) Fall Arrest Indicator (purchase EAL for test) Frontal Attachment (3.2.3) 0 150 3 650 3.2.3.1.1 4.3.3 Dynamic Feet First Drop Test 3 550 3.2.3.1.2 4.3.5 Static Feet First 3 650 Shoulder Attachment (3.2.4) 3.2.4.1.1 4.3.5 Static Feet First 3 650 Waist, Rear Attachment (3.2.5) 3.2.5.2.1 4.3.5 Static Feet First 3 650 Hip Attachment (3.2.6) 3.2.6.1.1 4.3.5 Static Feet First 3 650 Suspension Seat (3.2.7) 3.2.7.1.1 4.3.5 Static Feet First 3 650 Section 22 Page 1 ANSI/ASSE Z359.11 (Intertek)
Static Feet First Test for Lanyard Parking Attachment Element (3.1.12) 3.1.12 4.3.7 Static Feet First 3 650 Components (3.3) 3.3.1 7.1.1, 7.1.2 Load Bearing Straps (includes tensile ($360) and abrasion/tensile tests ($510) $ 920 (10pcs-5 feet long) 3.3.2 --- Threads and Stitching 0 (included in design evaluation) Connecting Components Metal 3.3.3 --- TBD (**shall conform to Z359.12 or testing is required) Connecting Components Soft Loops 3.3.3 --- (included in design evaluation) TBD (***Materials shall meet section 3.3.1 or testing required) Markings and Instructions (5) 5.1 --- Markings 5.2 --- Instructions 200 Section 22 Page 2 ANSI/ASSE Z359.11 (Intertek)
Clause INSPEC International Ltd Testing Fees for ANSI Z359.11-2014 Safety Requirements for Full Body Harnesses Issue 2015.05.04 Description Verfication (Z359.7) Qualification (Z359.7) Req t Test required Fees (USD) required Fees (USD) 3 3.1 - - Requirements Design Requirements 1 85 1 85 3.1.10 4.3.7 Static feet-first test for lanyard parking attachment 1 243 3 437 element. 3.2.1.3 - Dorsal Attachment Element Requirement 3.2.1.3.2 4.3.4 Dynamic Head First 2 270 6 486 3.2.1.3.3 4.3.5 Static feet First 1 243 3 437 3.2.1.3.4 4.3.6 Fall Arrest Indicator 1 215 3 405 3.2.2.3 3.2.2.3.1-4.3.3 Sternal Attachment Element Requirement Dynamic Feet First 1 200 3 360 3.2.2.3.2 4.3.5 Static Feet First 1 243 3 437 3.2.2.3.3 4.3.6 Fall Arrest Indicator 1 1 215 3 405 3.2.3.1 3.2.3.1.1-4.3.3 Frontal Attachment Element Requirement Dynamic Feet First 1 200 3 360 3.2.3.1.2 4.3.5 Static Feet First 1 243 3 437 3.2.4.1 3.2.4.1.1-4.3.5 Shoulder Attachment Element Requirement Static Feet First 1 243 3 437 3.2.5.2 3.2.5.2.1-4.3.5 Waist, Rear Attachment Element Requirement Static Feet First 1 243 3 437 3.2.6.1 3.2.6.1.1-4.3.5 Hip Attachment Element Requirement Static Feet First 1 243 3 437 3.2.7.1 3.2.7.1.1-4.3.5 Suspension Seat Attachment Element Requirements Static Feet First 1 243 3 437 3.3 - Component Requirements (Load Bearing Straps) 3.3.1-3.3.2 3.3.1.2 3.3.1.5 7.1.2 conditioning 5 ft each 580 5 ft each 580 3.3.3 3.3.3.3-3.3.3.4 - Design Requirements 1 85 1 7.1.1 Load bearing strap tensile tests 325 - Connecting Components (Soft Loop Attachment) - Design Requirements 1 85 1 3.3.1.2 7.1.1 Load bearing strap tensile tests 10 pcs x 325 10 pcs x 325 3.3.1.5 7.1.2 conditioning 5 ft each 580 5 ft each 580 5 - Marking and Instructions 1 125 1 125 1 only applicable if Sternal fall arrest indicator is used Notes: 1. The test fees above are per model and do not include the cost of any retests that may be required. 85 325 85 Section 22 Page 3 ANSI/ASSE Z359.11 (Inspec) Revision Date : 02.14.16
Intertek ANSI/ASSE Z359.15-14 Initial/ Annual Test Fees Product Type Required Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL 37 ea. $5,450 *Note: The above test fees do not include the cost of any retests that may be required. Intertek ANSI/ASSE Z359.15-14 Test Fees (Manual Fall Arrester) Element Requirement Test Method Clause Pass/ Fail Criteria Fee Sample Needs Vertical Lifeline Model FP50LL Design Requirements 3.1.1, 3.1.4 through 3.1.6, 3.1.8 Shall comply with stated design requirements. $100 0 ea. Vertical Lifeline Model FP50LL Design Requirement (Section 3.1.2) 7.2.1 Shall comply with stated design requirements. $100 0 ea. Vertical Lifeline Model FP50LL Elongation (Section 3.1.3) 7.2.2 Shall have an elastic elongation of not more than 10% when subject to a load of 1800 lbs (8 kn) Vertical Lifeline Model FP50LL Breaking Strength (Section 3.1.7) 4.3.1 Breaking Strength of not less than 5000 lbs (22 kn) $400 5 ea. $450 3 ea. Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL Residual Static Strength Test (Section 3.1.11) 4.2.3 Single Anchor Lifeline, Fall Arrester and Connecting Subsytem shall support a load of not less than 1800 lbs (8 kn) $400 3 ea. Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ Design Requirements 3.2.1, 3.2.2, 3.2.4, 3.2.6 through 3.2.8 Shall comply with stated design requirements. $100 0 ea. Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL Dynamic Performance - Manual Override Test (Section 3.2.5) 4.2.4 Fall Arrester shall be designed to engage if the locking arm, lever, connector or link is being held open. Fall Arrester shall arrest the fall and hold the load for a minimum of 1 minute without moving further down the lifeline. Total fall distance shall not be greater than 11 ft. (3.35 m). Average force shall not exceed 900 lbs (4 kn). Maximum arrest force shall not exceed 1800 lbs (8 kn). $450 3 ea. Section 22 Page 4 ANSI/ASSE Z359.15 (Intertek)
Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL Static Strenth Test - Fall Arrester (Section 3.2.9) 4.3.2 Fall Arrester shall sustain a load of 3600 lbs (16 kn), without failure, for a period of no less than 1 minute. Fall Arrester may deform, however, it shall not release the load. $450 3 ea. Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL Dynamic Performance Test - Ambient (Section 3.2.10) 4.2.2 Fall Arrester shall lock on the lifeline and remain locked, holding the test weight for 1 minute, until released. Fall Arrester does not need to function after test. Total fall distance shall not be greater than 11 ft. (3.35 m). Average force shall not exceed 900 lbs (4 kn). Maximum arrest force shall not exceed 1800 lbs (8 kn). $450 3 ea. Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL Dynamic Performance Test - Hot Conditioning (Section 3.2.10) 4.2.2 & 4.2.5.1 (Hot Conditioning) Fall Arrester shall lock on the lifeline and remain locked, holding the test weight for 1 minute, until released. Fall Arrester does not need to function after test. Total fall distance shall not be greater than 11 ft. (3.35 m). Average force shall not exceed 900 lbs (4 kn). Maximum arrest force shall not exceed 1800 lbs (8 kn). $500 3 ea. Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL Dynamic Performance Test - Cold Conditioning (Section 3.2.10) 4.2.2 & 4.2.5.2 (Cold Conditioning) Fall Arrester shall lock on the lifeline and remain locked, holding the test weight for 1 minute, until released. Fall Arrester does not need to function after test. Total fall distance shall not be greater than 11 ft. (3.35 m). Average force shall not exceed 900 lbs (4 kn). Maximum arrest force shall not exceed 1800 lbs (8 kn). $500 3 ea. Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL Dynamic Performance Test - Wet Conditioning (Section 3.2.10) 4.2.2 & 4.2.5.2 (Wet Conditioning) Fall Arrester shall lock on the lifeline and remain locked, holding the test weight for 1 minute, until released. Fall Arrester does not need to function after test. Total fall distance shall not be greater than 11 ft. (3.35 m). Average force shall not exceed 900 lbs (4 kn). Maximum arrest force shall not exceed 1800 lbs (8 kn). $500 3 ea. Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL Function Test (Section 3.2.11) 4.2.1 Shall travel up and down the lifeline without assistance. Residual Static Strength Test (Section 3.2.12) 4.2.3 Fall Arrester shall not move down the lifeline more than 4 in. (102 mm) when a force of no less than 660 lbs (2.94 kn) is applied. Corrosion Test (Section 3.2.13) 7.5.1 Fall Arrester shall operate as intended and shall show no evidence of corrosion of the base metal. Presence of white scale is permitted. Markings & Instructions 5.1, 5.2, 5.3, 5.4 Shall be marked with required markings and include required statements/information in user instructions. $100 3 ea. $400 0 ea. $450 5 ea. $100 0 ea. Section 22 Page 5 ANSI/ASSE Z359.15 (Intertek)
General Requirements Test Section Test Description $ 4 -- Design & Classification Requirements 75 1 Webbing Width and Strength 4.1.3 -- Test 10 pcs. x 5 ft 715 (includes both wet and dry long condition testing) 5.2.1 6.2.2.1.1, 6.2.3, 6.2.4 Intertek CAN/CSA Z259.10-12 Test Fees Drop Test (Feet First) Class A 225 1 6.2.2.1.2, 5.2.2 Drop Test (Head First) Class A 225 1 6.2.3, 6.2.4 5.2.3 6.2.2.2 Drop Test - Class D 225 1 5.2.3 6.2.2.3 Drop Test - Class E 225 1 5.2.3 6.2.2.4 Drop Test - Class L 225 1 5.2.3 6.2.2.5 Drop Test - Class P 225 1 5.3 6.2.5 or 6.2.6 Fall Arrest Indicator - (Static/Dynamic Test) *Client to provide Class E4 energy absorber for test 6.2.6 250* 1 7 -- Marking and Information Evaluation 75 1 Section 22 Page 6 CAN/CSA Z259.10 (Intertek)
Req t Test Required US$ Design & 4 classification (except 1 70 4.1.3, Strength) 4.1.3 Straps strength testing 5 x 5ft 250 5.2.1 6.2.2.1.1 Drop test - Class A, Feet first 1 250 5.2.2 6.2.2.1.2 Drop test - Class A, Head first 1 250 5.2.3 6.2.2.2 Drop test - Class D 1 250 5.2.3 6.2.2.3 Drop test - Class E 1 250 5.2.3 6.2.2.4 Drop test - Class L 1 250 5.2.3 6.2.2.5 Drop test - Class P 1 250 5.3 6.2.5 Fall arrest indicator static test 1 200 5.3 6.2.6 Fall arrest indicator dynamic test 1 200 7 Marking and information 1 70 Notes: Clause Inspec CAN/CSA Z259.10 Full Body Harness If written evidence of compliance with clause 4.2.2.2, if relevant to the product, is not supplied with the test samples, additional testing to that clause will be required. The costs of such testing will be quoted separately. Description The test fees above are per model and do not include the cost of any additional tests (as per note 1) or the cost of any retests that may be required. Section 22 Page 7 CAN/CSA Z259.10 (Inspec)
Initial/ Annual Test Fees Product Type Required Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL 18 $4,550 *Note: The above test fees do not include the cost of any retests that may be required. Test Fees (Manual Fall Arrester) Element Requirement Test Method Clause Pass/ Fail Criteria Fee Sample Needs Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL Intertek CAN/CSA Z259.2.5-2012 Intertek CAN/CSA Z259.2.5-2012 Design Requirements 4.1 through 4.5 Shall comply with stated design requirements. Vertical Lifeline FP50LL Breaking Strength (Clause 4.5 (a)) ISO 2307 or CI 1500 Breaking Strength of not less than 27 kn (6000 lbf) Covered as part of Corrosion Test $450 (5) 10' pieces Notes 1 ea. Use one of other samples Vertical Lifeline FP50LL Elongation (Clause 4.5 (c)) ISO 2307 Shall have an elastic elongation of not more than 10% when subject to a load of 8 kn (1800 lbf) Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL Corrosion Test (Clause 4.2.1) ASTM B117 Shall show no evidence of corrosion that would affect function. Dynamic Performance Test of Synthetic Rope Fall Arresters (Clause 6.1.1) 5.3.2 Maximum movement of the fall arrester along the lifeline shall not be more than 1m (39 in.) from the test weight attachment point. Breakage of any component or other damage that could reduce the ability of the device to function properly shall not be allowed. $650 (5) 10' pieces $600 3 ea. Includes Design Evaluation (Clauses 4.1-4.5) $500 3 ea. Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL Dynamic Strength Test of Synthetic Rope Fall Arresters (Clause 6.1.3) Dynamic Performance of Panic Grab Feature (Clause 6.1.5) 5.3.3 Maximum movement of the fall arrester along the lifeline shall not be more than 1 m (39 in.) from the dorsal attachment point. 5.3.2 & 5.3.6 Maximum movement of the fall arrester along the lifeline shall not be more than 1m (39 in.). Breakage of any component or other damage that could reduce the ability of the device to function properly shall not be allowed. $500 3 ea. $500 3 ea. Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL Residual Static Strength Test (Clause 6.1.7) 5.3.4 Residual Static Strength of at least 3 kn (675 lbf). Maximum allowable slippage shall be 100 mm (4 in.) from the arrest position. $400 0 ea. Use Dynamic Strength Test Sample(s) Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL Fall Arrester & Energy Absorbing Lanyard Model SFPRGQ with Vertical Lifeline Model FP50LL Mobility Test (Clause 6.2) 5.3.5 Shall move freely up and down the lifeline without stopping or requiring intervention. Slope Test (Clause 6.3) 5.3.3.5 Maximum movement of the fall arrester along the lifeline shall not be more than 1m (39 in.) from the dorsal attachment point. Markings & Instructions 7.1, 7.2, & 7.3 Shall be marked with required markings and include required statements/information in user instructions. $100 1 ea. Use Dynamic Strength Test Sample(s) prior to conducting Dynamic Strength Test $750 3 ea. $100 1 ea. Use one of other samples Section 22 Page 8 CAN/CSA Z259.2.5-12 (Intertek)
INSPEC Technical Services CAN/CSA Z259.2.2-14 Self-Retracting Devices Test Description Clause # of Category of N/C Classification Requirements 4 $80 1 Minor Design Requirements General (SRL) $1,162 Design Requirements General (SRL-R) $1,320 5.1 1 Major B Design Requirements - General $818 Design Requirements General (SRL-R) $1,290 5.2.1 1 Major B Design Requirements - Metal Elements & Corrosion Design Requirements - Webbing (Tensile, wet & dry) 5.2.2 $892 3 Major B 5.2.3 $271 3 Major A Design Requirements - Wire Rope (Tensile) 5.2.4 $271 3 Major A Synthetic Rope (Tensile, wet & dry) 5.2.5 $271 3 Major A Terminations 5.3 $80 3 Major A Test Sequence Class SRL Testing 6.1.2-4 total - Sample 1 Sample 2 Sample 3 Sample 4 7.1.2, 7.7.2, & 7.5.2 7.2.3 & 7.3.3 (ambient) 7.2.3 & 7.3.3 (cold, hot) 7.1.2 & 7.2.3 (corrosion) - 1 - - 1 - - 1 - - 1 - Class SRL-R Testing 6.1.3-4 total - Sample 1 Sample 2 7.1.2, 7.7.2, & 7.5.2 7.2.3, 7.6.2, & 7.3.3 (ambient) - 1 - - 1-7.2.3, 7.6.2, & 7.3.3 Sample 3-1 - (cold, hot) 7.1.2, 7.6.2, & 7.2.3 Sample 4-1 (corrosion) Section 22 Page 9 CAN /CSA Z259.2.2 (Inspec)
Class SRL-LE Testing 6.1.4-5 or 6 total - Sample 1 Sample 2 Sample 3 Sample 4 7.1.2, 7.7.2, & 7.5.2 7.2.3 & 7.3.3 (ambient) 7.2.3 & 7.3.3 (cold, hot) 7.1.2 & 7.2.3 (corrosion) - 1 - - 1 - - 1 - - 1 - Sample 5 (may require a 6 th sample) 7.8.3-1 - Class SRL-LE-R Testing 6.1.5-5 or 6 total - Sample 1 Sample 2 Sample 3 Sample 4 7.1.2, 7.7.2, & 7.5.2 7.2.3, 7.6.2, & 7.3.3 (ambient) 7.2.3, 7.6.3, & 7.3.3 (cold, hot) 7.1.2, 7.6.2, & 7.2.3 (corrosion) - 1 - - 1 - - 1 - - 1 - Sample 5 (may require a 6 th sample) 7.8.3-1 - Individual Tests Retraction Tension 6.2.1 & 7.1 $561 1 Major B Dynamic Performance 6.2.2 & 7.2 $1,418 1 Critical Post Dynamic Creep Test 6.2.3 & 7.3 $638 1 Major A Fall Arrest Indicator Test 6.2.4 & 7.2 $184 1 Major A Static Strength Test 6.2.5 & 7.5 $190 1 Critical Retrieval Performance Test SRL-R 6.2.6 & 7.6 $998 1 Major A Locking Performance Test 6.2.7 & 7.7 $210 1 Major A Dynamic Leading Edge Test 6.2.8 & 7.8 Not currently offered Critical Markings & Instructions 8.1 & 8.2 $80 1 Minor Note: The test fees above are per model and do not include the cost of any retests that may be required. Section 22 Page 10 CAN /CSA Z259.2.2 (Inspec)
Energy Absorbers Test Description INSPEC Technical Services CAN/CSA Z259.11-05 (R2015) Paragraph Req. Test Design & Classification Requirements 4 - $74 1 Straps Strength Testing 4.1.3 - $263 5 pcs. x 5 ft. Drop Test Class A, feet first 5.2.1 Drop Test Class A, head first 5.2.2 6.2.2.1.1, 6.2.3, 6.2.4 6.2.2.1.2, 6.2.3, 6.2.4 $263 1 $263 1 Drop Test Class D 5.2.3 6.2.2.2 $263 1 Drop Test Class E 5.2.3 6.2.2.3 $263 1 Drop Test Class L 5.2.3 6.2.2.4 $263 1 Drop Test Class P 5.2.3 6.2.2.5 $263 1 Fall Arrest Indicator Static Test 5.3 6.2.5 $210 1 Fall arrest Indicator Dynamic Test 5.3 6.2.6 $210 1 Marking & Instructions 7 - $74 1 Note: The test fees above are per model and do not include the cost of any retests that may be required. Note: IF written evidence of compliance with Clause 4.2.2.2, if relevant to product, is not supplied with the test samples, additional testing to that Clause will be required. The costs of such testing will be quoted separately. # of Lanyards Test Description CAN/CSA Z259.11-05 (R2015) Paragraph Req. Test Materials, Design & Classification 4.2.1, 4.6 - $74 1 Flammability Test Class D 5.3.3 6.2.2 $184 1 Abrasion Test Class D 5.3.4 6.2.3 $341 1 Wet & Frozen Tensile Test Class D 5.3.5 6.2.4 $210 1 Dynamic Drop Test Positioning Lanyard Class D 5.3.6 6.2.5 $263 1 Residual Static Test All Classes 5.3.7 6.2.8 $210 1 Dynamic Drop Test Classes A, B, C, & E (eyebolt) 5.3.8 6.2.6 (a) $263 1 Dynamic Drop Test Classes A, B, C, & E (beam) 5.3.8 6.2.6 (b) $263 1 Dynamic Drop Test Class F 5.3.9 6.2.7 $263 1 Adjustable Lanyard Slippage Test Classes A, B, D, & F 5.3.10 6.2.9 $236 1 Marking, Reference Literature & Instructions 7 - $74 1 Note: The test fees above are per model and do not include the cost of any retests that may be required. # of Note: If written evidence of compliance with Clauses 4.3, 4.4, 4.6.2, 4.6.3, 4.6.4, 4.6.5, 4.6.6, and 4.6.7, as relevant to the product, is not supplied with the test samples, additional testing to those Clauses will be required. The costs of such testing will be quoted separately. Section 22 Page 11 CAN/CSA Z259.11 (Inspec)
CAN/CSA Z259.12-11 Class I Connectors (Snaphooks, Carabiners, D-Rings, O-Rings, Oval Rings) Paragraph Test Description Req. Test Classification & Design 4.1, 5.4 - $68 1 Tensile Breaking Strength 5.1 6.3.1, 6.3.2 $158 3 Dynamic Strength (requires Abrasion Conditioning & Weather Conditioning) 5.2.1 6.4.3 $184 3 Abrasion Conditioning 5.2.2 6.4.1.1/6.4.1.2 $341 3 Cold Conditioning 5.2.3 6.4.2.1 $79 3 Water & Cold Conditioning 5.2.3 6.4.2.2 $158 3 Gate Face Load 5.4.2 6.6.1 $158 3 Gate Side Load 5.4.2 6.6.2 $158 3 Minor Axis Load 5.4.3 6.6.3 $158 3 Surface Finish of Hardware Components 5.5 6.7 $210 3 Marking 7 - $68 1 Note: The test fees above are per model and do not include the cost of any retests that may be required. # of Note: If written evidence of compliance with Clause 6.1.2, as relevant to the product, is not supplied with the test samples, additional testing to those Clauses will be required. The costs of such testing will be quoted separately. Class II Connectors (Buckles & Adjusters) Test Description CAN/CSA Z259.12-11 Paragraph Req. Test Classification & Design 4.2 - $68 1 Minimum Breaking Strength 7.1.1 6.3.1, 6.3.2 $158 3 Dynamic strength of subsystem 7.1.2 6.4.3 $184 3 Tensile breaking strength of subsystem 7.1.2 6.3.1/6.3.2 $158 3 Buckles 7.2 - $53 1 Stitching 7.3 - $53 1 Splicing 7.4 - $53 1 Marking 8 - $68 1 Note: The test fees above are per model and do not include the cost of any retests that may be required. Note: If written evidence of compliance with Clause 6.1.2, as relevant to the product, is not supplied with the test samples, additional testing to those Clauses will be required. The costs of such testing will be quoted separately. # of Section 22 Page 12 CAN/CSA Z259.11 (Inspec)
CAN/CSA Z259.2.2-98 (R2009) Self-Retracting Devices (Type 2 SRL s and Type 3 RSRL s) Test Description Paragraph Req. Test Design 4.1 - $79 1 Corrosion 4.2.2 ASTM B117 $315 1 Retraction Tension Ambient 5.3.1 6.1.2 $263 1 Dynamic Performance Ambient 5.2.2 6.2.3.2 $263 1 Residual Strength Ambient 5.2.3 6.3.2.2 $263 1 Visual Load Indicator Ambient 5.3.4 6.4.2 $184 1 Ultimate Static Strength Ambient 5.3.5 6.5.2.1 $184 1 Retraction Tension Cold 5.3.1 5.1.5, 6.1.2 $341 1 Dynamic Performance Cold 5.2.2 5.1.5, 6.2.3.2 $341 1 # of Residual Strength Cold 5.2.3 5.1.5, 6.3.2.2 $341 1 Visual Load Indicator Cold 5.3.4 5.1.5, 6.4.2 $263 1 Ultimate Static Strength Cold 5.3.5 5.1.5, 6.5.2.1 $263 1 Retrieval Ambient (Type 3 RSRL s only) 5.4 6.6.2.1 $158 1 Retrieval Cold (Type 3 RSRL s only) 5.4 5.1.5, 6.6.2.1 $236 1 Marking, Reference Literature & Instructions 7 - $68 1 Note: The test fees above are per model and do not include the cost of any retests that may be required. Note: The test fees above are per model and per orientation of fall arrester, and per material, and per diameter of lifeline associated with each model. Note: Requirements of Clause 4.2 (except corrosion) shall be certified by the manufacturer. Note: If written evidence of compliance with Clauses 4.1.5 and 4.4, as relevant to the product, is not supplied with the test samples, additional testing to those Clauses will be required. The costs of such testing will be quoted separately. Section 22 Page 13 CAN/CSA Z259.11 (Inspec)