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GB/T 33061.11-2022 English PDF

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GB/T 33061.11-2022: Plastics - Determination of dynamic mechanical properties - Part 11: Glass transition temperature
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Basic data

Standard ID GB/T 33061.11-2022 (GB/T33061.11-2022)
Description (Translated English) Plastics - Determination of dynamic mechanical properties - Part 11: Glass transition temperature
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard G31
Classification of International Standard 83.080.01
Word Count Estimation 18,198
Date of Issue 2022-12-30
Date of Implementation 2023-04-01
Issuing agency(ies) State Administration for Market Regulation, China National Standardization Administration

GB/T 33061.11-2022: Plastics - Determination of dynamic mechanical properties - Part 11: Glass transition temperature


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ICS 83.080.01 CCSG31 National Standards of People's Republic of China Determination of dynamic mechanical properties of plastics Part 11.Glass transition temperature (ISO 6721-11.2019, MOD) Posted on 2022-12-30 2023-04-01 Implementation State Administration for Market Regulation Released by the National Standardization Management Committee

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 11 of GB/T 33061 "Determination of Dynamic Mechanical Properties of Plastics". GB/T 33061 has issued the following part. --- Part 1.General principles; --- Part 4.Non-resonant tensile vibration method; --- Part 5.Non-resonant bending vibration method; --- Part 6.Non-resonant shear vibration method; --- Part 7.Non-resonant torsional vibration method; --- Part 10.Determination of complex shear viscosity using a parallel plate oscillatory rheometer; --- Part 11.Determination of dynamic mechanical properties of plastics Part 11.Glass transition temperature. This document is modified to adopt ISO 6721-11.2019 "Determination of dynamic mechanical properties of plastics - Part 11.Glass transition temperature". Compared with ISO 6721-11.2019, this document has made the following structural adjustments. --- Adjust "select the mode of dynamic mechanical analysis (such as bending, torsion, shearing, compression, tension) according to the shape of the sample submitted for inspection" from the range Adjust to 5.1; --- In 5.1, "equipment should be calibrated regularly. When changing the test mode and environment, or when moving and changing the temperature sensor, it should be Row Calibration See Appendix A" Adjust to front of this paragraph. The technical differences between this document and ISO 6721-11.2019 and their reasons are as follows. --- Replaced ISO 472 (see Chapter 3) with the normatively quoted GB/T 2035 to adapt to the technical conditions of our country; --- Replaced ISO 6721-1 with the normative reference GB/T 33061.1 (see Chapter 3, Chapter 4, 5.2, 6.1, 6.3, Chapter 7, Chapter 8, 9.1 and 12) to adapt to the technical conditions of our country; --- Added "equipment should be calibrated regularly, when changing the test mode and environment, or when moving and changing the temperature sensor, it should be in accordance with Appendix A for calibration. "Related descriptions (see 5.1) to facilitate the operator to understand this document; --- Increased the description of "Sensitivity program of heating rate see Appendix B" (see 5.1) to facilitate the operator to understand this document; --- The conditions for use of the complete program and the simplified program (see 9.2) are added to the method, which is convenient for the operator; --- Increase the provisions of significant figures in the result representation (see Chapter 10) to improve the operability of judgment and eliminate ambiguity; --- The test date requirement has been added to the test report (see Chapter 12). The following editorial changes have been made to this document. --- Changed the titles of 9.2.2 and 9.2.3 to be unified with the content of the chapter (see 9.2.2 and 9.2.3); --- For the convenience of the operator, method A is listed in sub-items (see 9.2). Please note that some contents of this document may refer to patents. The issuing agency 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 is drafted by. Zhonglan Chenguang Chemical Co., Ltd., Guangzhou Institute of Quality Supervision and Testing, NETZSCH Scientific Instrument Trading (Shanghai) Co., Ltd. Co., Ltd., Beijing Yanshan Petrochemical High Technology Co., Ltd., Xiamen Yinduli Industrial Co., Ltd., Huafon Group Co., Ltd., Mettleto Lido Technology (China) Co., Ltd., Dongguan Zhongbiao Technology Co., Ltd., Waters Technology (Shanghai) Co., Ltd., China Petroleum and Natural Gas Co., Ltd. Lanzhou Chemical Research Center, Sinopec Beijing Research Institute of Chemical Industry, Chengde Precision Testing Machine Co., Ltd. Division, Jilin Provincial Product Quality Supervision and Inspection Institute, Liaocheng University, Qingdao Dagang Customs of the People's Republic of China, Qingdao Customs Technology Center, Guangdong Wei Linna New Material Technology Co., Ltd., Puyang Enying Polymer Material Co., Ltd., Guangdong Shicheng Plastic Machinery Co., Ltd., Guangdong Qi Dexin Materials Co., Ltd., Shenzhen Beststar Excellence Technology Co., Ltd. The main drafters of this document. Wang Erlong, Li Xiaozeng, Wang Rong, Jing Ying, Xiang Mei, Wang Xiaohua, Yuan Ningxiao, Zheng Fengqiong, Guo Yanshuang, Jia Huiqing, Liu Xuanbo, Wang Xinhua, Li Shangyu, Yu Fei, Teng Mouyong, Gao Jianguo, Li Zhou, Zheng Fei, Yuan Faxin, Zhang Chunhua, Rao Desheng, Wei Dongjin.

Introduction

This document covers a method for determining the glass transition temperature values of plastics in temperature sweep mode using the Dynamic Mechanical Analysis (DMA) program. This method can replace the use of differential scanning calorimetry (DSC) to measure the glass transition temperature of plastics (see GB/T 19466.2). DMA is used to determine the storage modulus, loss modulus, and loss factor as a function of temperature and frequency. From these data, it can be determined glass transition temperature. Many types of commercial equipment can use this technology, in principle, it applies to GB/T 33061.1 described All loading modes for. In order to reduce the influence of thermal hysteresis of the sample, the method assumes that the temperature of the furnace body is the temperature of the sample, and the error changes with the heating rate. This eliminates the need to measure the temperature of the specimen directly, for example, with a thermocouple embedded in the specimen. GB/T 33061 specifies various methods for determining the dynamic mechanical properties of rigid plastics within the range of linear viscoelastic behavior. proposed to consist of twelve Partial composition. --- Part 1.General. The purpose is to establish common definitions and aspects of the test methods for the determination of dynamic mechanical properties. --- Part 2.Torsion pendulum method. The purpose is to establish an operable, traceable and verifiable method for the determination of the energy storage and loss components of torsional modulus. real program. --- Part 3.Resonant bending vibration curve method. The aim is to determine the flexural composite modulus E*f of the homogeneous plastic and the layer for sound insulation Determination of damping characteristics of compressed plastics, establish operable, traceable and verifiable procedures. --- Part 4.Non-resonant tensile vibration method. The purpose is to measure the forced non-resonant method for the tensile complex modulus E* of plastics. Establish procedures that are operable, traceable, and verifiable. --- Part 5.Non-resonant bending vibration method. The purpose is to measure the forced non-resonance method of plastic bending complex modulus E*f Establish procedures that are operable, traceable, and verifiable. --- Part 6.Non-resonant shear vibration method. The purpose is to measure the plastic shear complex modulus G* by the forced non-resonant method Establish procedures that are operable, traceable, and verifiable. --- Part 7.Non-resonant torsional vibration method. The purpose is to determine the twist of the shear complex modulus G* of the strip or rod solid polymer. Convert the measurement to the non-resonance method, and establish operable, traceable and verifiable procedures. --- Part 8.Wave conduction longitudinal shear vibration method. The purpose is to determine the longitudinal complex modulus L* and the shear complex modulus of the polymer For the determination of the energy storage component of G*, establish operable, traceable and verifiable procedures. --- Part 9.Sonic pulse propagation tensile vibration method. The purpose is to measure the storage component of the composite tensile modulus E* of the polymer Establish procedures that are operable, traceable, and verifiable. --- Part 10.Determination of complex shear viscosity using a parallel plate oscillatory rheometer. The purpose is to determine the dynamic rheological properties of polymer melts For the determination of test methods, establish operable, traceable and verifiable procedures. --- Part 11.Glass transition temperature. The purpose is to determine the determination of glass transition temperature (Tg) for dynamic mechanical properties, to determine immediately operable, traceable and verifiable procedures. --- Part 12.Non-resonant compression vibration method. The purpose is to establish an operable, Traceable, verifiable procedures. Determination of dynamic mechanical properties of plastics Part 11.Glass transition temperature WARNING. Use of this document may involve hazardous materials, operations, and equipment. This document is not intended to address all safety issues related to the use question. It is the user's responsibility to establish appropriate health and safety practices and to determine the applicability of any other limitations prior to use.

1 Scope

This document describes a method for determining the glass transition temperature (Tg) by measuring dynamic mechanical properties at a constant heating rate. glass transition transition temperature is the transition from a hard and relatively brittle glassy state to a highly elastic or viscous state in an amorphous polymer or in the amorphous region of a partially crystalline polymer corresponding temperature. This document applies to unreinforced and filled polymers, foams, rubbers, adhesives and fibre-reinforced plastics/composites. The method described is limited to For materials that are stable above Tg, that is, amorphous materials that transform into a highly elastic state or partially crystalline materials that retain their shape due to crystallization. NOTE. Tg values measured with the instrument may vary due to material properties or test setup. The temperature sensor in the DMA instrument is not connected to the sample to be tested Touch, so what is measured is the temperature of the environment around the sample to be tested. The test results may vary with the heating rate, therefore, the application of a method To consider the effect of thermal hysteresis on the experimental data.

2 Normative references

The contents of the following documents constitute the essential provisions of this document through normative references in the text. Among them, dated references For documents, only the version corresponding to the date is applicable to this document; for undated reference documents, the latest version (including all amendments) is applicable to this document. GB/T 2035 Plastic terms and their definitions (GB/T 2035-2008, ISO 472.1999, IDT) GB/T 33061.1 Determination of dynamic mechanical properties of plastics Part 1.General rules (GB/T 33061.1-2016, ISO 6721-1. 2011, MOD)

3 Terms and Definitions

The following terms and definitions defined in GB/T 2035 and GB/T 33061.1 apply to this document. 3.1 TM″ The temperature corresponding to the peak of the loss modulus-temperature curve. Note 1.The unit is Celsius (°C). Note 2.See data point 1 in Figure 1. 3.2 TM' The temperature corresponding to the inflection point of the storage modulus-temperature curve. Note 1.The unit is Celsius (°C). Note 2.See data point 2 in Figure 1.

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