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GB/T 26168.2-2018 English PDF

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GB/T 26168.2-2018: Electrical insulating materials -- Determination of the effects of ionizing radiation -- Part 2: Procedures for irradiation and test
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GB/T 26168.2: Evolution and historical versions

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GB/T 26168.2-2018English414 Add to Cart 3 days [Need to translate] Electrical insulating materials -- Determination of the effects of ionizing radiation -- Part 2: Procedures for irradiation and test Valid GB/T 26168.2-2018
GB/T 26168.2-2010English719 Add to Cart 3 days [Need to translate] Electrical insulating materials -- Determination of the effects of ionizing radiation -- Part 2: Procedures for irradiation and test Obsolete GB/T 26168.2-2010

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GB/T 20632.3   GB/T 20632.2   GB/T 31034   GB/T 26168.4   GB/T 26168.1   GB/T 26169   

Basic data

Standard ID GB/T 26168.2-2018 (GB/T26168.2-2018)
Description (Translated English) Electrical insulating materials -- Determination of the effects of ionizing radiation -- Part 2: Procedures for irradiation and test
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard K15
Classification of International Standard 29.035.20
Word Count Estimation 22,220
Date of Issue 2018-06-07
Date of Implementation 2019-01-01
Issuing agency(ies) State Administration for Market Regulation, China National Standardization Administration

GB/T 26168.2-2018: Electrical insulating materials -- Determination of the effects of ionizing radiation -- Part 2: Procedures for irradiation and test


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Electrical insulating materials--Determination of the effects of ionizing radiation--Part 2. Procedures for irradiation and test ICS 29.035.20 K15 National Standards of People's Republic of China Replace GB/T 26168.2-2010 Electrical insulation determines the effects of ionizing radiation Part 2. Irradiation and test procedures Part 2. Proceduresforirradiationandtest (IEC 60544-2.2012, IDT) Published on.2018-06-07 2019-01-01 implementation State Market Supervisory Administration China National Standardization Administration issued

Content

Foreword III Introduction V 1 Scope 1 2 Normative references 1 3 radiation 2 4 test 4 5 Report 6 Appendix A (informative) Test report example 8 Reference 13

Foreword

GB/T 26168 "Electrical insulation materials to determine the impact of ionizing radiation" is divided into the following parts. --- Part 1. Radiation interactions and dosimetry; --- Part 2. Irradiation and test procedures; --- Part 3. Application grading system in a radiation environment; --- Part 4. Assessment procedures for aging during operation. This part is the second part of GB/T 26168. This part is drafted in accordance with the rules given in GB/T 1.1-2009. This part replaces GB/T 26168.2-2010 "Electrical insulating materials to determine the effects of ionizing radiation - Part 2. Irradiation and testing Procedures, the main technical content changes compared with GB/T 26168.2-2010 are as follows. --- Revised the normative reference document (see Chapter 2, Chapter 2 of the.2010 edition); This section uses the translation method equivalent to the use of IEC 60544-2.2012 "Electrical insulation materials to determine the effects of ionizing radiation Part 2. Irradiation and test procedures. The documents of our country that have a consistent correspondence with the international documents referenced in this part are as follows. ---GB/T 528-2009 Determination of tensile stress-strain properties of vulcanized rubber or thermoplastic rubber (ISO 37.2005, IDT); ---GB/T 1040 (all parts) Determination of tensile properties of plastics [ISO 527 (all parts), IDT]; GB/T 1408.1-2016 Test methods for electrical strength of insulating materials - Part 1. Tests under power frequency (IEC 60243-1. 2013, IDT); ---GB/T 1410-2006 Test method for volume resistivity and surface resistivity of solid insulating materials (IEC 60093.1980, IDT); ---GB/T 2411-2008 Plastic and hard rubber using a hardness tester to determine the indentation hardness (Shore hardness) (ISO 868.2003, IDT); ---GB/T 6031-2017 Determination of hardness of vulcanized rubber or thermoplastic rubber (10IRHD~100IRHD) (ISO 48. 2010, IDT); ---GB/T 9341-2008 Determination of bending properties of plastics (ISO 178.2001, IDT); ---GB/T 10064-2006 Test method for determining insulation resistance of solid insulating materials [IEC 60167. 1964 (1996), IDT]; ---GB/T 10580-2015 Standard conditions for the use of solid insulating materials before and during testing (IEC 60212.2010, IDT); --- GB/T 26168.1-2018 Electrical insulating materials to determine the effects of ionizing radiation - Part 1. Radiation interactions and agents Measurement (IEC 60544-1.2013, IDT); --- GB/T 26168.3-2010 Determination of the effects of ionizing radiation - Part 3. Application to radiation Grading system (IEC 60544-4.2003, IDT). This part was proposed by China Electrical Equipment Industry Association. This part is under the jurisdiction of the National Technical Committee for Standardization of Electrical Insulation Materials and Insulation Systems (SAC/TC301). This section drafted by. Shanghai Cable Research Institute Co., Ltd., Shenzhen Woer Nuclear Materials Co., Ltd., Mechanical Industry Beijing Electric Technology Institute of Economics, Jiaxing Aikesen Electric Technology Co., Ltd., Shenzhen Xusheng Sanyi Technology Co., Ltd., Jiangsu Shangshang Cable Group Limited company, State Grid Henan Electric Power Company Electric Power Research Institute, Guilin International Wire and Cable Group Co., Ltd., Wuxi Jiangnan Cable Company, China Guangdong Nuclear High-tech Nuclear Materials Group Co., Ltd., Jiangsu Dasheng High Polymer Co., Ltd., Shanghai to Zhengdao Chemical Materials Co., Ltd. Co., Ltd., Shanghai Keming Transmission Technology Co., Ltd., Shanghai Haoxun Microwave Technology Co., Ltd., Henan Enhao Gaoke Group Co., Ltd., China Nuclear Power Engineering Co., Ltd., Cooper Electronic Technology (Shanghai) Co., Ltd., 3M China Ltd. The main drafters of this section. Sun Jiansheng, Liu Yali, Chen Yu, Kang Shufeng, Guo Zhenyan, Yu Hancheng, Wu Fei, Ling Guozhen, Zhang Xiaofei, Gong Yisheng, Liu Jun, Shan Yongdong, Fan Weiwei, Song Gang, Li Yanhong, Rao Ximei, Ju Xuecheng, Jin Huadong, Liang Guilan, Li Zhe, Wang Qin, Li Jianxi, Yang Bo, Shi Dongmei, Li Yaming, Shen Yu, Xiong Yu, Qin Hucheng, Zhu Guobin, Wang Rui, Zhuang Meng. The previous versions of the standards replaced by this section are. ---GB/T 26168.2-2010.

Introduction

When selecting the insulation used in a radiant environment, the designer needs to have reliable test data to compare the selected materials. for In this way, performance data for each material can be obtained according to standardized test procedures that need to reflect changes in working conditions. The impact of important performance. In particular, consider that the radiation dose rate is lower under normal working conditions, while the insulating material is based on the high dose rate. The choice of materials obtained by the radiation resistance data obtained from the test. It is often necessary to well control and record the environmental conditions during the measurement of the effects of radiation, important environmental parameters including the temperature during the radiation, Should be medium and mechanical, electrical stress, etc. If air is present, the radiation-inducing agent may react with oxygen, if there is no air, it will not This happens. This is why some polymers have an effect on the absorbed dose rate when exposed to air, resulting in The actual radiation resistance of the material is lower than the radiation resistance of the sample under vacuum or inert gas. This condition is often referred to as "dose The rate effect is described in detail in references [2-15]. Irradiation time can also be an important factor in the following situations. a) diffusion limits the physical effects of oxidation [9], [11]; b) Determination of chemical phenomena such as hydrogen peroxide splitting reactions at dose rates [11], [15]. Typical diffusion-limiting effects are usually observed in the study of polymer radiation in air, and their importance depends on polymer geometry. The relationship between structure and oxygen permeation and consumption rate, and oxygen permeation and consumption rate are both dependent on temperature [11]. This means a thick test Irradiation in the air may cause partial oxidation of the surface of the sample to the air, which in turn causes a change in the properties of the material (with an oxygen-free ring). Similar in the case of irradiation in the environment). Therefore, when the material is to be used for a long time in a low dose rate air environment, the high dose rate of the sample is placed for a short time. The durability may not be determined in the same dosage environment. Pass previous tests or sample thickness factors combined with oxygen permeability and consumption Rates [9], [11] are estimated to avoid the above problems. A technique for effectively eliminating oxygen diffusion effects by increasing the surrounding oxygen pressure Among them [9]. Radiation-induced reactions are affected by temperature, and increasing the rate of reaction by temperature can result in a synergistic effect between radiation and heat. In general heat In the aging prediction, the Arrhenius method is usually used, which uses an equation based on basic chemical kinetics. Although there is currently a big The amount of research on radiation aging methods, but the research in this field is relatively backward [10]. Used for aging test modeling including dose, time, Ale The general equations such as Niu's activation energy, dose rate and temperature are currently being tested [11-13]. Need to be clear. successive Continuous application of radiation and heat (usually used in practice) may result in significant differences in test results due to differences in application sequences, and Their synergistic effects are often not well simulated [14], [15]. The mechanical and electrical properties required for insulating materials and the extent of acceptable radiation-induced changes are so varied that they are The law gives a framework suggestion for acceptable performance. The same is true for irradiation conditions. Therefore this section only recommends a few based on previously validated It is suitable for performance and irradiation conditions. The recommended properties are those that are particularly sensitive to radiation. For some special applications may have to Choose other features. GB/T 26168.1 specifies various issues involved in the evaluation of radiation effects, dose measurement terms, several types of defined exposure and absorbed doses. The method and some methods for calculating the absorbed dose in various specific materials according to the dose measurement method used. GB/T 26168.2 specifies Irradiation and testing procedures. GB/T 26168.3 specifies a grading system for grading the radiation resistance of insulating materials and also provides a A set of parameters describing the suitability of the material for the radiation environment provides guidance for the selection of insulation materials, calibration indices, and performance specifications. GB/T 26168.4 specifies the assessment procedure for aging during operation. Electrical insulation determines the effects of ionizing radiation Part 2. Irradiation and test procedures

1 Scope

This part of GB/T 26168 specifies the use of ionizing radiation to the insulating material before determining the change in physical or chemical properties caused by radiation. The irradiation conditions to be maintained during and before the irradiation treatment are performed. Several potential irradiation conditions with important application value are proposed and listed Under these conditions, various parameters of the radiation-induced response may be affected. This section applies to the selection of specimens, irradiation conditions and test methods in order to determine the importance of radiation on the performance impact. Due to many materials The materials are all used in an air or inert gas environment, so the standard irradiation conditions in both cases are given. This section does not apply to measurements during irradiation.

2 Normative references

The following documents are indispensable for the application of this document. For dated references, only dated versions apply to this article. Pieces. For undated references, the latest edition (including all amendments) applies to this document. IEC 60093 Test method for volume resistivity and surface resistivity of solid insulating materials (Methodsoftestforvolumere- Sistivityandsurfaceresistivityofsolidelectricalinsulatingmaterials) IEC 60167 Test method for determining insulation resistance of solid insulating materials (Methodsoftestforthedetermination ofthe Insulationresistanceofsolidinsulatingmaterials) Standard conditions for IEC 60212 solid insulation materials used before and during testing (Standard conditions for useprior Toandduringthetestingofsolidelectricalinsulatingmaterials) IEC 60243-1 - Methods of test for electrical strength of insulating materials - Part 1 - Tests in power frequency (Electricalstrengthofinsu- latingmaterials-Testmethods-Part 1.Testsatpowerfrequencies) IEC 60544-1 Electrical insulating materials - Determination of effects of ionizing radiation - Part 1. Radiation interactions and dosimetry (Elec- tricalinsulatingmaterials-Determinationoftheeffectsofionizingradiation-Part 1.Radiationinter- Actionanddosimetry) Electrical insulating materials - Determination of effects of ionizing radiation - Part 4 (Electricalinsulatingmaterials-Determinationoftheeffectsofionizingradiation-Part 4.Classifica- Tionsystemforserviceinradiationenvironments) Determination of tensile stress-strain properties of ISO 37 vulcanized rubber or thermoplastic rubber (Rubber, vulcanizedor thermoplastic-Determinationoftensilestress-strainproperties) ISO 48 vulcanized rubber or thermoplastic rubber hardness (10IRHD~100IRHD) [Rubber, vulcanizedor thermoplastic-Determinationofhardness(hardnessbetween10IRHDand100IRHD)] ISO 178 Plastics bending properties (Plastics-Determinationofflexuralproperties) ISO 179 (all parts) Determination of impact properties of plastic simply supported beams (Plastics-Determination ofCharpyimpact Properties) ISO 527 (all parts) Determination of tensile properties of plastics (Plastics-Determination oftensileproperties) ISO 815 (all parts) Determination of compression set of vulcanized rubber or thermoplastic rubber (Rubber, vulcanizedorther- moplastic-Determinationofcompressionset)

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