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GB/T 43905.5-2024: Laboratory method for sampling fume and gases in welding and allied processes - Part 5: Identification of thermal-degradation products generated when welding or cutting through products composed wholly or partly of organic materials using pyrolysis-gas ch
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| GB/T 43905.5-2024 | English | 439 |
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Laboratory method for sampling fume and gases in welding and allied processes - Part 5: Identification of thermal-degradation products generated when welding or cutting through products composed wholly or partly of organic materials using pyrolysis-gas ch
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GB/T 43905.5-2024
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Basic data | Standard ID | GB/T 43905.5-2024 (GB/T43905.5-2024) | | Description (Translated English) | Laboratory method for sampling fume and gases in welding and allied processes - Part 5: Identification of thermal-degradation products generated when welding or cutting through products composed wholly or partly of organic materials using pyrolysis-gas ch | | Sector / Industry | National Standard (Recommended) | | Classification of Chinese Standard | J33 | | Classification of International Standard | 25.160.10 | | Word Count Estimation | 22,283 | | Date of Issue | 2024-04-25 | | Date of Implementation | 2024-11-01 | | Issuing agency(ies) | State Administration for Market Regulation, China National Standardization Administration | GB/T 43905.5-2024: Laboratory method for sampling fume and gases in welding and allied processes - Part 5: Identification of thermal-degradation products generated when welding or cutting through products composed wholly or partly of organic materials using pyrolysis-gas ch
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ICS 25:160:10
CCSJ33
National Standards of People's Republic of China
Sampling of fumes and gases during welding and related processes
Laboratory methods Part 5: Based on pyrolysis-gas phase
Chromatography-mass spectrometry of organic materials in welding or cutting
Identification of thermal degradation products
spectrometry
pyrolysis-gaschromatography-massspectrometry,MOD)
Published on April 25, 2024, implemented on November 1, 2024
State Administration for Market Regulation
The National Standardization Administration issued
Table of Contents
Preface III
Introduction IV
1 Scope 1
2 Normative references 1
3 Terms and Definitions 1
4 Principle 2
5 Procedure 2
6 Use of thermal degradation product data 2
7 Test Report 2
Appendix A (Normative) Test Step 3
Appendix B (Informative) Pyrolyzer 5
Appendix C (Informative) Chromatographic Conditions 7
Appendix D (Informative) System and Performance Check 8
Appendix E (Informative) Use of Thermal Degradation Data 10
Appendix F (Informative) Test Report Example 11
Reference 13
Foreword
This document is in accordance with the provisions of GB/T 1:1-2020 "Guidelines for standardization work Part 1: Structure and drafting rules for standardization documents"
Drafting:
This document is part 5 of GB/T 43905 "Laboratory methods for sampling of fumes and gases during welding and allied processes":
The following parts have been published:
--- Part 1: Determination of fume emission rate during arc welding and collection of fume for analysis;
--- Part 2: Determination of emission rates of carbon monoxide, carbon dioxide, nitric oxide and nitrogen dioxide during arc welding, cutting and gouging;
--- Part 3: Determination of ozone emission rate during arc welding;
--- Part 4: Emission limits of welding fume from welding materials;
--- Part 5: Identification of thermal degradation products of organic materials during welding or cutting based on pyrolysis-gas chromatography-mass spectrometry;
--- Part 6: Quantitative determination of smoke and gases during resistance spot welding:
This document is modified from ISO 15011-5:2011 “Health and safety for welding and allied processes - Laboratory methods for sampling fumes and gases”:
Identification of thermal degradation products of organic materials during welding or cutting based on pyrolysis-gas chromatography-mass spectrometry:
The technical differences between this document and ISO 15011-5:2011 and their reasons are as follows:
--- Added normative references GBZ 2:1 and GBZ /T 224 (see Chapter 3) to apply my country's technical requirements:
The following editorial changes were made to this document:
--- According to the content and scope of application of the standard, the name of the standard is changed to "Laboratory Methods for Sampling of Fumes and Gases in Welding and Allied Processes"
Part 5: Identification of thermal degradation products of organic materials during welding or cutting based on pyrolysis-gas chromatography-mass spectrometry;
--- The informative reference GB/T 43905:1 replaces ISO 15011-1, and GB/T 43905:2 replaces ISO 15011-2 (see
Introduction) to adapt to my country's technical requirements:
--- Deleted the unused terms "chemical substance" and "occupational exposure limit" (see 3:1 and 3:2 of ISO 15011-5:2011):
Please note that some of the contents of this document may involve patents: The issuing organization of this document does not assume the responsibility for identifying patents:
This document is proposed and coordinated by the National Welding Standardization Technical Committee (SAC/TC55):
This document was drafted by: Harbin Welding Research Institute Co:, Ltd:, Zhengzhou Machinery Research Institute Co:, Ltd:, Lanzhou
University of Science and Technology, Tianjin Bridge Welding Materials Group Co:, Ltd:, Kunshan Jingqun Welding Materials Technology Co:, Ltd:, Zhejiang Shenjia Welding Materials Technology Co:, Ltd:, Sichuan
Atlantic Welding Materials Co:, Ltd:, Beijing University of Technology, Harbin Institute of Technology, National Health Commission Occupational Safety and Health Research Institute
Center, Nanjing University of Science and Technology, Beijing Jinwei Welding Materials Co:, Ltd:
The main drafters of this document are: Shi Baicheng, Qin Jian, Shi Yu, Yang Tianwen, Tong Tianwang, Zheng Xiaodong, Yang Fei, Hao Runze, Li Hong, Lin Sanbao, Ding Chunguang,
Xue Peng, Li Wei, and Yang Zijia:
Introduction
GB/T 43905 "Laboratory methods for sampling of fumes and gases during welding and related processes" provides laboratory methods for sampling and analysis of fumes and gases:
GB/T 43905 is a universal standard for the analysis of dust and gas generated by different process methods:
The basic method standard consists of six parts:
--- Part 1: Determination of smoke emission rate during arc welding and collection of smoke for analysis: The purpose is to specify the conditions applicable to welding that is prone to generate smoke:
Laboratory method for determination of welding fume emission rate from open arc welding of fumes and collection methods for analysis:
--- Part 2: Determination of emission rates of carbon monoxide, carbon dioxide, nitric oxide and nitrogen dioxide during arc welding, cutting and gouging:
The purpose is to specify the carbon monoxide, carbon dioxide, nitrogen monoxide, and carbon dioxide generated during arc welding, cutting, and gouging:
Laboratory method for determination of nitrogen emission rate:
--- Part 3: Determination of ozone emission rate during arc welding: The purpose is to specify the ozone emission rate applicable to automatic arc welding process
Laboratory method for determination of emission rates:
--- Part 4: Limits of welding fume emissions from welding materials: The purpose is to specify the limits applicable to non-alloy steel, alloy steel and non-ferrous metals:
Method for compiling welding fume emission limits for all welding materials used for manual, semi-automatic or fully automatic arc welding connections or cladding:
--- Part 5: Identification of thermal degradation products of organic materials during welding or cutting based on pyrolysis-gas chromatography-mass spectrometry:
The regulations apply to coatings composed wholly or partly of organic materials that are subjected to thermal degradation during welding, cutting, preheating and straightening:
Laboratory method for identification and semi-quantitative measurement of the components of undefined products:
--- Part 6: Quantitative determination of smoke and gases in resistance spot welding: The purpose is to specify the application of the resistance spot welding of coated and uncoated steel sheets:
Laboratory method for determination of emission rates of fumes and gases generated by welding:
Welding and related processes generate fumes and gases which are harmful to human health if inhaled:
The information can help occupational health professionals assess worker exposure and determine appropriate control measures:
GB/T 43905:1 and GB/T 43905:2 are primarily used to generate emission rate data when welding uncoated metals:
It is a common phenomenon in the welding industry to weld or cut various coatings that are composed wholly or partly of organic materials: These coatings include shop primers, oils,
Paints, oils, waxes, and inter-weld materials such as adhesives and sealants: When heated, these coatings can generate various thermal degradation
The composition of the coating depends on the temperature to which the coating is subjected: During welding and cutting, the coating material
The material is subjected to a range of temperatures:
The purpose of this document is to specify methods for identifying and semi-quantitatively determining the quality of metals during welding, cutting, preheating and straightening treated with the above-mentioned coatings:
The data generated are used to provide information on degradation:
If necessary, current standards for workplace exposure measurements can be used to assess the exposure of these substances in the test:
The identified degradants were quantitatively measured:
This document can be used by coating manufacturers to provide information for inclusion in safety data sheets and by occupational hygienists when carrying out risk assessments:
The data obtained cannot be used directly to evaluate the workplace exposure:
Touch degree:
Laboratory-based heating, pyrolysis and different welding techniques were used to compare various through-weld coatings:
The use of pyrolysis as the basis for the test procedures specified in this document is based on the following observations and conclusions:
---Pyrolysis successfully identified most of the components of important hygienic significance;
---Although the pyrolysis tests were carried out in a helium atmosphere, the results were very similar to those obtained by furnace pyrolysis in air:
resemblance;
--- The cost of pyrolysis test is significantly lower than that of welding test;
--- The results of the pyrolysis test have good inter-laboratory consistency;
--- Pyrolysis test is easier to determine standard conditions than welding test;
--- In order to reduce the sampling procedures required, any welding test procedure is likely to require some preliminary testing in the laboratory:
Pyrolysis may be used:
Sampling of fumes and gases during welding and related processes
Laboratory methods Part 5: Based on pyrolysis-gas phase
Chromatography-mass spectrometry of organic materials in welding or cutting
Identification of thermal degradation products
1 Scope
This document describes the identification and semi-quantification of thermal degradation products generated during welding, cutting, preheating and straightening of coated metals:
Laboratory methods for chemical measurements specifying procedures, use of data, and test reporting:
This document applies to the undefined products generated by thermal degradation of coatings composed wholly or partly of organic materials during the above-mentioned thermal processes:
Laboratory methods for identification and semi-quantitative measurement of biological components:
2 Normative references
The contents of the following documents constitute the essential clauses of this document through normative references in this document:
For referenced documents without a date, only the version corresponding to that date applies to this document; for referenced documents without a date, the latest version (including all amendments) applies to
This document:
GBZ 2:1 Occupational exposure limits for hazardous factors in the workplace Part 1: Chemical hazardous factors
GBZ /T 224 Occupational Health Terminology
3 Terms and definitions
The terms and definitions defined in GBZ 2:1, GBZ /T 224 and the following apply to this document:
3:1
Shop Primer
Material applied to unpainted metal surfaces for protective purposes that does not necessarily have to be removed before welding and does not prevent the production of an acceptable weld:
Note: Shop primers are usually applied at a thickness between 15 μm and 30 μm:
3:2
Thin film organic coating thinorganic coating
Applied in a very thin layer on unpainted metal surfaces for protective purposes, which does not have to be removed before welding and does not hinder manufacturing
Materials for qualified welds:
Note: Thin film organic coatings are usually applied with a thickness between 1 μm and 3 μm:
3:3
weld-throughadhesive
Polymers applied to raw or unpainted metal surfaces for bonding purposes prior to welding and not preventing the production of acceptable welds
Compound:
3:4
weld-throughsealant
Gap fillers applied to unpainted metal surfaces for non-pressure sealing purposes prior to welding and not preventing the production of acceptable welds
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