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ANSI/ISEA 105-2024 American National Standard for Hand Protection Selection Criteria, 2024
- 105 Standard Cover Page
- ANSI_ISEA_105_2024 no ISEA cover page [Go to Page]
- ANSI/ISEA 105-2024
- Revision of ANSI/ISEA 105-2016
- American National Standard for
- Hand and Arm Protection Classification
- Secretariat
- International Safety Equipment Association
- Approved November 14, 2024
- American National Standards Institute, Inc.
- Published by
- International Safety Equipment Association
- 1101 Wilson Boulevard, Suite 1425
- Arlington, Virginia 22209
- Copyright by ISEA
- No part of this publication may be reproduced
- Printed in the United States of America
- Cudd Energy Services
- FCX Performance
- Honeywell
- Individual Expert
- Intertek
- MAPA Professional
- Table of Contents
- Appendices
- American National Standard
- 1. Scope
- 2. Purpose
- 3. Definitions
- 3.1 Definitions of Glove or Sleeve Responses to Stress
- 3.2 Definitions Related to Chemical Effects
- 3.3 Definitions Related to Sampling
- Procedures
- 4. Normative References
- The following standards contain provisions that, through reference in this text, constitute provisions of this American National Standard:
- ANSI/ISEA 125-2021, American National Standard for Conformity Assessment of Safety and Personal Protective Equipment
- ASTM D3884-09 (2017), Standard Guide for Abrasion Resistance of Textile Fabrics (Rotary Platform, Double-Head Method)
- ASTM D3389-16, Standard Test Method for Coated Fabrics Abrasion Resistance (Rotary Platform Abrader)
- ASTM F739-12e1, Standard Test Method for Permeation of Liquids and Gases through Protective Clothing Materials under Conditions of Continuous Contact
- ASTM F1060-18, Standard Test Method for Evaluation of Conductive and Compressive Heat Resistance (CCHR)
- ASTM F1358-16, Standard Test Method for Effects of Flame Impingement on Materials Used in Protective Clothing Not Designated Primarily for Flame Protection
- ASTM F2878-19 Standard Test Method for Protective Clothing Material Resistance to Hypodermic Needle Puncture
- ASTM F2992-23, Standard Test Method for Measuring Cut Resistance of Materials Used in Protective Clothing with Tomodynamometer (TDM-100) Test Equipment
- EN ISO 21420:2020, Protective gloves – General requirements and test methods
- EN 388:2016+A1:2018, Protective gloves against mechanical risks [Go to Page]
- ISO 2859-1:1999, Sampling plans for inspection by attributes - Part 1: Sampling Schemes Indexed By Acceptance Quality Limit (AQL) For Lot-By-Lot Inspection
- ISO 17493:2000, Clothing for protection against heat and flame – Test method for convective heat resistance using a hot air circulating oven
- 6.1 Mechanical Protection
- 6.1.1 Cut Resistance
- 6.1.2 Puncture Resistance (other than Hypodermic Needle)
- 6.1.4 Abrasion Resistance
- 6.2 Chemical Protection
- 6.2.1 Chemical Permeation Resistance
- 6.2.2 Chemical Degradation Resistance
- 6.3 Heat and Flame Protection
- 6.3.1 Ignition Resistance and Burning Behavior (or After-Flame Time)
- 6.3.2 Heat Degradation Resistance
- 6.3.3 Conductive Heat Resistance
- 7. Report of Test Data
- Appendix A
- Data Collection Procedures for ASTM F2992-15
- Appendix B
- Test Method for Chemical Degradation Resistance
- B.1 Scope
- B.3 Equipment
- B.5 Specimen Exposure Procedure
- B.7 Expression of Results
- DRx = Degradation resistance of the x glove specimen against challenge chemical tested, %
- DR = Degradation resistance of the test sample against challenge chemical tested, %
- DR2 = Degradation resistance of the second glove specimen against challenge chemical tested, %
- Determine the standard deviation (SD) of the degradation resistance for the 3 gloves.
- Appendix C
- Descriptions of Test Methods Used in This Standard
- Appendix D
- Recommended Hand and Arm Protection Selection Procedure
- General Requirements (OSHA 29 CFR 1910.132)
- Hand Protection (OSHA 29 CFR 1910.138)
- Other Factors for Consideration
- E.1 Other Sources of Terminological Information
- E.2 Medical (Biological) Hazards
- E.2.1 Natural Rubber Latex
- The medical community has not established safe levels of proteins to evaluate latex-containing products.
- E.2.2 Viral Penetration Resistance
- E.2.3 Medical Glove Specifications
- E.2.4 Gloves for Emergency Medical Operations
- E.3 Extreme Temperature Applications
- E.3.1 Radiant Heat Insulation
- E.3.2 Combined Radiant and Convective Heat Insulation
- E.3.3 Fire Fighting Glove Specifications
- E.3.4 Cold Convective Insulation
- E.3.5 Conductive Cold Resistance
- E.3.6 Cold Cracking Resistance
- E.4 Cleanroom Applications
- E.5 Hazardous Materials Response Applications
- E.6 Electrical Hazards
- E.7 Radiation Hazards
- E.8 Impact Protection
- E.9 Human Factors
- E.9.1 Fit
- E.9.2 Function
- Dexterity is the ability of the wearer to manipulate objects and control his or her hands in the desired manner. Depending on how gloves fit, dexterity can be impaired by overly stiff or bulky materials required for physical and other forms of protec...
- ASTM F2010, Standard Test Method for Evaluation of Glove Effects on Wearer Hand Dexterity Using a Modified Pegboard Test
- EN 420:2009, Protective gloves – General requirements and test methods (Clause 5.2)
- E.10 Chemical Penetration
- ANSI/ISEA 105-2024 specifically addresses chemical protection issues related to permeation (Section 6.2.1) and degradation (Section 6.2.2). In some work environments, chemical permeation resistance may represent a severe exposure to gloves not mimick...
- E.10 Vibration Reduction
- Some hand and arm protection may be intended to offer to reduce the risk of injury caused by exposure to repetitive impact or vibration. ANSI/ASA S2.73, Mechanical Vibration and Shock - Hand-Arm Vibration – Methods for the Measurement and Evaluation ...
- E.11 Other Factors
- E.11.1 Glove Design
- E.11.2 Seam Strength
- Appendix F
- Resources [Go to Page]
