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GB/T 21461.2-2023 English PDF

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GB/T 21461.2-2023: Plastics - Ultra-high-molecular-weight polyethylene (PE-UHMW) moulding and extrusion materials - Part 2: Preparation of test specimens and determination of properties
Status: Valid

GB/T 21461.2: Evolution and historical versions

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GB/T 21461.2-2023English449 Add to Cart 4 days [Need to translate] Plastics - Ultra-high-molecular-weight polyethylene (PE-UHMW) moulding and extrusion materials - Part 2: Preparation of test specimens and determination of properties Valid GB/T 21461.2-2023
GB/T 21461.2-2008English639 Add to Cart 3 days [Need to translate] Plastics -- Ultra-high-molecular-weight polyethylene (PE-UHMW) moulding and extrusion materials -- Part 2: Preparation of test specimens and determination of properties Obsolete GB/T 21461.2-2008

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Basic data

Standard ID GB/T 21461.2-2023 (GB/T21461.2-2023)
Description (Translated English) Plastics - Ultra-high-molecular-weight polyethylene (PE-UHMW) moulding and extrusion materials - Part 2: Preparation of test specimens and determination of properties
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard G31
Classification of International Standard 83.080.20
Word Count Estimation 22,247
Date of Issue 2023-11-27
Date of Implementation 2024-06-01
Older Standard (superseded by this standard) GB/T 21461.2-2008
Issuing agency(ies) State Administration for Market Regulation, China National Standardization Administration

GB/T 21461.2-2023: Plastics - Ultra-high-molecular-weight polyethylene (PE-UHMW) moulding and extrusion materials - Part 2: Preparation of test specimens and determination of properties


---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
ICS 83:080:20 CCSG31 National Standards of People's Republic of China Replace GB/T 21461:2-2008 Plastic ultra-high molecular weight polyethylene (PE-UHMW) Molded and extruded materials Part 2: Specimen preparation and Performance Measurement properties (ISO 21304-2:2021,MOD) Published on 2023-11-27 and implemented on 2024-06-01 State Administration for Market Regulation Released by the National Standardization Administration Committee

Table of contents

PrefaceⅠ Introduction III 1 Scope 1 2 Normative references 1 3 Terms and Definitions 2 4 Sample preparation 3 5 Sample status adjustment 4 6 Performance Measurement 4 Appendix A (informative) Technical differences between this document and ISO 21304-2:2021 and their reasons 7 Appendix B (Normative) Determination method of modulus stress of ultra-high molecular weight polyethylene (PE-UHMW) molding and extrusion materials 9 Appendix C (Normative) Charpy beam double-notch impact strength of ultra-high molecular weight polyethylene (PE-UHMW) molded and extruded materials Determination method 13 Reference 16

Foreword

This document complies with the provisions of GB/T 1:1-2020 "Standardization Work Guidelines Part 1: Structure and Drafting Rules of Standardization Documents" Drafting: This document is Part 2 of GB/T 21461 "Plastic ultra-high molecular weight polyethylene (PE-UHMW) molding and extrusion materials": GB/T 21461 has published the following parts: ---Part 1: Nomenclature system and classification basis; ---Part 2: Sample preparation and performance determination: This document replaces GB/T 21461:2-2008 "Plastic ultra-high molecular weight polyethylene (PE-UHMW) molding and extrusion materials No: 2 Part: Sample Preparation and Performance Determination", compared with GB/T 21461:2-2008, in addition to structural adjustments and editorial changes, the main technical changes transformed as follows: a) Changed the regulations on humidity conditions for specimen condition adjustment (see Chapter 5, Chapter 4 of the:2008 edition); b) The regulations on the humidity conditions of the standard test environment have been changed, and the original humidity conditions requirements for filled samples have been retained: The requirements for humidity conditions are deleted (see Chapter 6, Chapter 5 of the:2008 edition); c) In the compression molding conditions of the test piece, the "average cooling rate" is changed to "cooling rate", and "inconsistent cooling rates will affect The degree of crystallinity of the specimen results in significant differences in the performance measurements, so a molding press that can achieve a linear cooling rate should be used" (see Footnotes in Table 1,:2008 version of Table 1); d) Added two properties: "bending strength" and "glass transition temperature" (see Table 2); e) The type and size of the electrical properties of the specimen have been changed (see Table 2, Table 2 of the:2008 edition); f) Added the requirement for electrical properties that "the size of the sample should be larger than the size of the electrode on the instrument to prevent discharge along the surface" (see footer in Table 2 Note c) g) Added three properties: "melt volume flow rate", "wear performance - wear rate" and "wear performance - wear index" (see Table 3); h) Changed some contents of the tensile stress test instrument (see B:2, A:3 of the:2008 edition); i) Changed the type of loading weight mass for the tensile stress specimen (see Table B:1, Table A:1 of the:2008 edition); j) Changed the schematic diagram of the tensile stress measuring device (see Figure B:1, Figure A:1 of the:2008 version); k) Changed some contents of the tensile stress test (see B:4:2, A:5:2 of the:2008 edition); l) The unit of weight mass in the calculation formula of constant elongation stress has been changed from "gram (g)" to "kilogram (kg)" (see B:5,:2008 edition A:6); m) Changed the schematic diagram of the double-notch sample preparation device and the double-notch sample (see Figure C:1, Figure B:1 of the:2008 version); n) The preparation method of the double notch of the specimen has been changed (see C:4, B:5 of the:2008 edition): This document is modified to adopt ISO 21304-2:2021 "Plastic ultra-high molecular weight polyethylene (PE-UHMW) molding and extrusion materials" Part 2: Specimen preparation and performance determination: Compared with ISO 21304-2:2021, there are many technical differences between this document and the clauses involved in the outer margins: Straight single lines (∣) are marked: A list of these technical differences and their causes is provided in Appendix A: Compared with ISO 21304-2:2021, this document has made the following editorial changes: a) The symbol of double-notch impact strength of simply supported beams was changed from "αcN" to "αcDN"; b) Added instructions for preparing specimens by punching after compression molding (see note in 4:2); c) Added reference ISO 293:2023: Please note that some content in this document may be subject to patents: The publisher of this document assumes no responsibility for identifying patents: This document is proposed by China Petroleum and Chemical Industry Federation: This document is under the jurisdiction of the National Plastics Standardization Technical Committee (SAC/TC15): This document was drafted by: Beijing Huasu Chenguang Technology Co:, Ltd:, Chengde Jinjian Testing Instrument Co:, Ltd:, Shanghai Chemical Research Research Institute Co:, Ltd:, Beijing Yanshan Petrochemical High-tech Co:, Ltd:, China National Petroleum Corporation Petrochemical Research Institute, and Rail Technology Chengdu Co:, Ltd:, Hangzhou Zhongwang Technology Co:, Ltd:, PetroChina Liaoyang Petrochemical Branch, Sinopec Lanzhou Petrochemical Branch of China National Petroleum Corporation, Dushanzi Petrochemical Branch of China National Petroleum Corporation, Sinopec Beijing Yanshan Branch of China Industrial Co:, Ltd:, Zhejiang Wuyi Wenlin Environmental Protection Technology Co:, Ltd:, Ningbo Futian New Material Technology Co:, Ltd:, Zhejiang Jiang Aikang Medical Plastic Co:, Ltd:, Shanghai Yizhan Industrial Co:, Ltd: The main drafters of this document: Chen Hongyuan, Zheng Huiqin, Ren Yufeng, Wang Zhengyuan, Shen Xianting, Wang Yaling, Qu Jingbo, Xie Jianling, Zhu Ansheng, Yang Zhenguo, Helena, Ai Hongcheng, Cui Guanghong, Liu Dongsheng, Wang Xiaoli, Zhang Xiangling, Li Zhi, He Chong, He Wenlin, Chen Qili, Zhou Ye, Hao Liandong, Tang Xuhui, Li Jingyang: This document was first published in:2008 and this is the first revision:

Introduction

The previous version of GB/T 21461:2 (this document) and the previous version of GB/T 21461:1 released at the same time as this document are adopted equally: ISO 11542-2:1998 and ISO 11542-1:2001: In:2016, my country took the lead in revising ISO 11542-1:2001 and ISO 11542-2: In:1998, the ISO /TC61/SC9 Thermoplastics Branch revised the material naming system rules and released a new material naming system: Name format template: In order to facilitate the readers and users of the standard to become familiar with it and use it during the transition period, ISO stipulates that the standard Part 1 of the new template should be adopted: New standard numbers are given when the standard is revised: Part 2 standards also appear with new standard numbers when they are revised: Therefore, the ISO standard is revised to ISO 21304-1:2019 and ISO 21304-2:2021 replace ISO 11542-1:2001 and ISO 11542-2:1998 respectively: GB/T 21461 is intended to consist of two parts: ---Part 1: Nomenclature system and classification basics: The purpose is to establish a standard model suitable for ultra-high molecular weight polyethylene materials: Nomenclature and classification principles of materials: ---Part 2: Sample preparation and performance determination: The purpose is to establish a sample preparation method suitable for ultra-high molecular weight polyethylene materials: Methods and performance measurement items, methods and conditions: This document is modified to adopt ISO 21304-2:2021, by stipulating unified sample preparation, condition adjustment, sample size and test strips To obtain reproducible and comparable test results: The terms and definitions of "cooling rate/linear cooling rate" in this document are derived from ISO 293:2023, which was revised and published under the leadership of my country: (See 3:2 and Table 1), compared with the "average cooling rate" in the previous version of this document, the cooling stage of the compression molded test piece has a significant impact on the control of the molding machine: The requirements of the control system are more stringent: This document newly adds the measurement of PE-UHMW materials using a triple cross-sectional area die (inner diameter 3:628mm) under the conditions of 230℃/21:6kg: The melt volume flow rate (MVR) test item can quickly determine the fluidity of lower molecular weight PE-UHMW materials for some uses: For constant elongation stress testing, this document only gives the minimum load up to 50g weight, but there is reason to believe that the use of smaller loads is essential for obtaining Take the modulus stress curve of some lower molecular weight PE-UHMW materials to study the molecular weight, molecular weight distribution and certain applicability of the material: Relationships with performance (such as wear resistance) are useful: Due to the ISO standard revision rules and the rapid development of PE-UHMW materials in my country, some aspects of the standard adoption standards will be revised during the revision process of this document: Technical modifications have been made to the sub-clauses and contents, and comparative instructions have been given in appropriate ways: Plastic ultra-high molecular weight polyethylene (PE-UHMW) Molded and extruded materials Part 2: Specimen preparation and Performance Measurement

1 Scope

This document specifies the specimen preparation methods and performance determination methods for ultra-high molecular weight polyethylene (PE-UHMW) molded and extruded materials: test methods: This document also gives requirements for handling the test material as well as conditioning the test material before molding and conditioning the specimen before testing: State adjustment requirements: This document gives methods and conditions for the preparation of specimens of ultra-high molecular weight polyethylene molded and extruded materials, as well as tests using these specimens: Methods for determining material properties: The properties and test methods listed in this document are suitable for characterizing ultra-high molecular weight polyethylene molded and extruded materials: appropriate and necessary: These properties are selected from GB/T 19467:1 general test methods: This document also gives information on ultra-high molecular weight polyethylene molding and Other test methods that are widely used or of special significance for extruded materials, such as the test methods for named properties specified in Part 1 of this document: The materials specified in this document are materials with a melt mass flow rate of less than 0:1g/10min at 190℃/21:6kg according to GB/T 1845:1: In order to obtain reproducible and comparable test results, the sample preparation and conditioning methods specified in this document can be used, as well as the test results: Sample dimensions and test methods: Data measured using specimens of different sizes or specimens prepared by different methods may be inconsistent:

2 Normative reference documents

The contents of the following documents constitute essential provisions of this document through normative references in the text: Among them, the dated quotations For undated referenced documents, only the version corresponding to that date applies to this document; for undated referenced documents, the latest version (including all amendments) applies to this document: GB/T 1033:1 Determination of density of plastic non-foam plastics Part 1: Dip method, liquid pycnometer method and titration method (GB/T 1033:1-2008,ISO 1183-1:2004,IDT) GB/T 1033:2 Determination of density of plastic non-foam plastics Part 2: Density gradient column method (GB/T 1033:2-2010, ISO 1183-2:2004,MOD) GB/T 1034 Determination of water absorption of plastics (GB/T 1034-2008, ISO 62:2008, IDT) GB/T 1040:1 Determination of tensile properties of plastics Part 1: General principles (GB/T 1040:1-2018, ISO 527-1: 2012,IDT) GB/T 1040:2 Determination of tensile properties of plastics Part 2: Test conditions for molded and extruded plastics (GB/T 1040:2- 2022,ISO 527-2:2012,IDT) GB/T 1040:4 Determination of tensile properties of plastics Part 4: Isotropic and orthotropic fiber reinforced composite materials Test conditions (GB/T 1040:4-2006, ISO 527-4:1997, IDT) GB/T 1043:1 Determination of impact properties of plastic simply supported beams Part 1: Non-instrumented impact test (GB/T 1043:1- 2008,ISO 179-1:2000,IDT) GB/T 1408:1 Test methods for electrical strength of insulating materials Part 1: Test at power frequency (GB/T 1408:1-2016, IEC 60243-1:2013,IDT) GB/T 1409 Measurement of permittivity and dielectric loss factor of electrical insulating materials at power frequency, audio frequency, and high frequency (including meter wave wavelength)

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