GB/T 33061.7-2023 English PDF

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GB/T 33061.7-2023: Plastics - Determination of dynamic mechanical properties - Part 7: Non-resonance method under torsional vibration
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Standard ID	USD	BUY PDF	Lead-Days	Standard Title (Description)	Status
GB/T 33061.7-2023	349	Add to Cart	4 days	Plastics - Determination of dynamic mechanical properties - Part 7: Non-resonance method under torsional vibration	Valid

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Basic data

Standard ID: GB/T 33061.7-2023 (GB/T33061.7-2023)
Description (Translated English): Plastics - Determination of dynamic mechanical properties - Part 7: Non-resonance method under torsional vibration
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: G31
Classification of International Standard: 83.080.01
Word Count Estimation: 18,172
Date of Issue: 2023-08-06
Date of Implementation: 2024-03-01
Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration

GB/T 33061.7-2023: Plastics - Determination of dynamic mechanical properties - Part 7: Non-resonance method under torsional vibration

---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 83.080.01 CCSG31 National Standards of People's Republic of China Determination of dynamic mechanical properties of plastics Part 7.Non-resonant torsional vibration method Part 7.Torsionalvibration-Non-resonancemethod, MOD) Published on 2023-08-06 2024-03-01 Implementation State Administration for Market Regulation Released by the National Standardization Administration Committee

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 7 of GB/T 33061 "Determination of Dynamic Mechanical Properties of Plastics". GB/T 33061 has released 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 oscillating rheometer; ---Part 11.Glass transition temperature. This document is modified to adopt ISO 6721-7.2019 "Determination of dynamic mechanical properties of plastics Part 7.Torsional vibration non-resonant method". Compared with ISO 6721-4.2019, this document has many structural adjustments. Comparison list of structure number changes between two files See Appendix A for the table. Compared with ISO 6721-4.2019, this document has many technical differences. Vertical text is used in the outer margin of the clauses involved. Single lines (|) are marked. A list of these technical differences and their causes is provided in Appendix B. The following editorial changes have been made to this document. ---In order to coordinate with existing standards, the name of the standard is changed to "Determination of dynamic mechanical properties of plastics - Part 7.Non-resonant torsional vibration" "Movement Method"; ---Replaced ISO 6721-1 with the informative reference GB/T 33061.1, and GB/T 33061.6 replaced ISO 6721-6 (see Chapter 1); --- Change the explanation of the symbol Γ∞ "The cross-sectional size and length of the steel specimen can make its stiffness at least 100 times higher than that of the plastic to be tested" Note 1 (see 3.2); ---As the structure of each sample may be different, samples of different thicknesses are prepared through injection molding, and microscopic changes in dynamic performance can be observed. Small differences. ” is changed to Note (see 6.2); --- Added a note "about using a torque wrench to maintain a fixed clamping force on the specimen and improve the reproducibility of the test" (see 9.3); ---Replace "If it is found that the clamping force has a significant impact on the measured value, the clamping surface of the sample may be too small. Choose a larger clamping surface or a wider The sample is helpful to reduce this effect. ” is changed to Note (see 9.3); ---Added Appendix A (informative) "List of comparison of structure numbers between this document and ISO 6721-7.2019"; ---Added Appendix B (informative) "List of technical differences between this document and ISO 6721-7.2019 and their reasons". 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. Guangzhou Institute of Quality Supervision and Inspection, SAIC-GM-Wuling Automobile Co., Ltd., Waters Technology (Shanghai) Co., Ltd., NETZSCH Scientific Instrument Trading (Shanghai) Co., Ltd., Xiamen Keli Electronics Co., Ltd., Zhejiang Longstar Household Products Co., Ltd. Company, China Blue Chenguang Chemical Research and Design Institute Co., Ltd., Sinopec (Beijing) Chemical Industry Research Institute Co., Ltd., Fujian Hongchang Gongmao Motor Co., Ltd. Company, Dongguan Mingyang New Materials Co., Ltd., Qingdao Hairong Commercial Cold Chain Co., Ltd., Liaocheng University, Qingdao Dagang, People's Republic of China Customs, Jilin Provincial Product Quality Supervision and Inspection Institute. The main drafters of this document. Chen Weili, Lan Xian, Guo Yanshuang, Wang Rong, Li Junxu, Li Zhenxi, Cao Jinpeng, Liu Xuanbo, Li Xiaozeng, Yu Qiaoling, Wu Jie, Wang Jieying, Song Hongjie, Teng Mouyong, Gao Jianguo, Guo Yingying, Li Shangyu.

Introduction

Dynamic mechanical analysis (DMA) measures the response of a material under alternating stress or strain under programmed temperature control. The measurement results reflect the material's response to alternating stress or strain. The viscoelasticity of the material. This document uses the DMA method to determine the shear modulus of plastics in non-resonant torsional vibration modes, including storage modulus and loss mode. quantity, and the change of loss factor with temperature. Based on these data, the relaxation behavior and transformation of plastics at all levels can be characterized, and information related to the use of plastics can be obtained. Important parameters related to the properties of use. GB/T 33061 specifies various methods for determining the dynamic mechanical properties of rigid plastics within the range of linear viscoelastic behavior. It is planned to consist of the following departments Composition. ---Part 1.General principles. The purpose is to establish common definitions and various aspects of test methods for the determination of dynamic mechanical properties. ---Part 2.Twist method. The purpose is to establish an operable, traceable and verifiable method for the measurement of energy storage and loss components of torsional modulus. Real program. ---Part 3.Resonant bending vibration curve method. The aim is to obtain the bending composite modulus Ef* of the homogeneous plastic and the layer used for sound insulation Determine the damping characteristics of compressed plastics and establish operable, traceable and verifiable procedures. ---Part 4.Non-resonant tensile vibration method. The purpose is to determine the forced non-resonance method of the tensile complex modulus E* of plastics. Establish operable, traceable and verifiable procedures. ---Part 5.Non-resonant bending vibration method. The purpose is to determine the forced non-resonance method of the plastic bending complex modulus Ef*. Establish operable, traceable and verifiable procedures. ---Part 6.Non-resonant shear vibration method. The purpose is to determine the forced non-resonant method of plastic shear complex modulus G*, Establish operable, traceable, and verifiable procedures. ---Part 7.Non-resonant torsional vibration method. The purpose is to calculate the torsion of the shear complex modulus G* of a strip or rod-shaped solid polymer. Convert the measurement to non-resonant methods and establish operable, traceable and verifiable procedures. ---Part 8.Wave conduction longitudinal shear vibration method. The purpose is to calculate the longitudinal complex modulus L* and shear complex modulus of the polymer For the determination of the energy storage component of G*, establish an operable, traceable and verifiable procedure. ---Part 9.Sonic pulse propagation tensile vibration method. The purpose is to measure the storage component of polymer composite tensile modulus E*. Determine and establish operable, traceable and verifiable procedures. ---Part 10.Determination of complex shear viscosity using a parallel plate oscillating rheometer. The purpose is to provide dynamic rheological properties of polymer melts. Determination of test methods and establishment of operable, traceable and verifiable procedures. ---Part 11.Glass transition temperature. The purpose is to determine the glass transition temperature (Tg) for dynamic mechanical properties. Establish operable, traceable and verifiable procedures. ---Part 12.Non-resonant compression vibration method. The purpose is to establish an operable and practical method for the determination of the compression composite modulus E* of polymers. Traceable and verifiable procedures. Determination of dynamic mechanical properties of plastics Part 7.Non-resonant torsional vibration method

1 Scope

This document describes the method for determining the shear complex modulus G* of rectangular or cylindrical solid plastics in the frequency range 0.001Hz~100Hz. Torsional non-resonant method. Higher frequencies may lead to larger errors in the measured dynamic performance (see 10.1.1 and 9.5.1). This document is suitable for the determination of dynamic storage modulus between 10MPa (hard rubber) and 10GPa (fiber-reinforced plastic). It can also be used to study molds. Plastics with a mass of less than 10MPa, but it can be more accurate using simple shearing (see GB/T 33061.6) or torsional deformation of thin layers between parallel plates Determine its dynamic mechanical properties. This document is particularly suitable for the determination of loss factors greater than 0.02, in order to facilitate the study of the dynamics of most glassy-rubbery relaxation zones. Can change with temperature and frequency (see GB/T 33061.1). Note. The torsion method (see ISO 6721-2) can be used for determination of loss factors less than 0.1, but the method described in this document is able to cover a wider and continuous frequency scope.

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 33061.1 Determination of dynamic mechanical properties of plastics Part 1.General principles (GB/T 33061.1-2016, ISO 6721-1. 2011,MOD) 3 Terms, definitions and symbols 3.1 Terms and definitions The terms and definitions defined in GB/T 33061.1 apply to this document. 3.2 Symbols The following symbols apply to this document. b. Width of the rectangular specimen, in meters (m). f. Measurement frequency, unit is Hertz (Hz). G'a, G'. apparent value and correction value of shear storage modulus, unit is Pascal (Pa). G″. Shear loss modulus, unit is Pascal (Pa). h. Thickness of rectangular sample, unit is meter (m). IP. Polar moment of inertia of the cross-section of the specimen per unit length, unit is meter to the fourth power (m4). IT. Moment of inertia of the loading component between the torque sensor and the specimen, unit is kilogram square meter (kg·m2). La. The length of the specimen between the two clamps, in meters (m). l. Length correction value, unit is meter (m). r. Radius of cylindrical specimen, unit is meter (m). ......

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