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GB/T 5169.19-2022 Related PDF English (GB/T 5169.19-2006)

GB/T 5169.19-2022 (GB/T5169.19-2022, GBT 5169.19-2022, GBT5169.19-2022) & related versions
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GB/T 5169.19-2022 GB NATIONAL STANDARD OF THE PEOPLE’S REPUBLIC OF CHINA ICS 13.220.40;29.020 CCS K 04 GB/T 5169.19-2022 / IEC 60695-10-3:2016 Replace GB/T 5169.19-2006 Fire hazard testing for electric and electronic products - Part 19: Abnormal heat - Mould stress relief distortion test (IEC 60695-10-3:2016, Fire hazard testing - Part 10-3: Abnormal heat - Mould stress relief distortion test, IDT) ISSUED ON: OCTOBER 12, 2022 IMPLEMENTED ON: MAY 1, 2023 Issued by: State Administration for Market Regulation; Standardization Administration of PRC. Table of Contents Foreword ... 3 Introduction ... 5 1 Scope ... 7 2 Normative references ... 7 3 Terms and definitions ... 8 4 Test overview ... 8 5 Test devices ... 8 6 Samples ... 9 7 Conditioning ... 9 8 Test procedure ... 9 9 Test criteria ... 11 10 Information to be given in the relevant product specification ... 11 11 Test report ... 12 Appendix NA (Informative) Published parts of “Fire Hazard Testing for Electric and Electronic Products” ... 13 References ... 16 Foreword This document is drafted in accordance with the provisions of GB/T 1.1-2020 “Directives for standardization - Part 1: Rules for the structure and drafting of standardizing documents”. This document is part 19 of “Fire hazard testing for electric and electronic products”. For the published parts of “Fire hazard testing for electric and electronic products”, see Appendix NA. This document replaces GB/T 5169.19-2006 “Fire hazard testing for electric and electronic products - Part 19: Abnormal heat - Mould stress relief distortion test”. Compared with GB/T 5169.19-2006, except for structural adjustment and editorial changes, the main technical changes are as follows: a) In the chapter Scope, the description of the sample passing test is supplemented (see Chapter 1; see Chapter 1 of the 2006 edition); b) Some terms and definitions are added (see Chapter 3); c) A detailed description of the test device is added (see Chapter 5); d) The test procedures are divided into two types: “Parts exposed to uniform maximum operating temperature” and “Parts exposed to varying operating temperatures” (see Chapter 8; see Chapter 7 of the 2006 edition); e) The test environment for parts exposed to uniform maximum operating temperature is changed from “in the air” to “in the oven” (see 8.2; see 7.1 of the 2006 edition); f) Chapter 11 has been added, which gives the contents that shall be included in the test report (see Chapter 11). This document is identical to IEC 60695-10-3:2016 “Fire hazard test - Part 10-3: Abnormal heat - Mould stress relief distortion test”. The following minimal editorial changes have been made to this document: --- For purpose of the consistency with the existing standard series, the name was changed to “Fire hazard testing for electric and electronic products - Part 19: Abnormal heat - Mould stress relief distortion test”; --- The informative references including IEC 60050 (all parts), IEC Guide104, and ISO/IEC Guide 51 are moved from Chapter 2 into the References; Fire hazard testing for electric and electronic products - Part 19: Abnormal heat - Mould stress relief distortion test 1 Scope This document specifies a mould stress relief distortion test. This document applies to electrotechnical equipment containing parts made of polymeric materials. This test method is mainly used to evaluate the effect caused by the residual process stress relief of finished moulded polymer components. Stress relief occurs when the sample (energized or not) is exposed to a specified temperature for a certain period of time. If the sample meets the specified test standard after conditioning at room temperature, it is considered to have passed the test. This document is intended for use by technical committees when preparing standards in accordance with the principles set out in IEC Guide 104 and ISO/IEC Guide 51. One of the tasks of technical committees is to use this series of standards wherever applicable when preparing standards in this field. Unless specifically mentioned or listed in the relevant standards, the requirements, test methods, or test conditions of this document will not apply. 2 Normative references The following documents contain the provisions which, through normative reference in this document, constitute the essential provisions of this document. For the dated referenced documents, only the versions with the indicated dates are applicable to this document; for the undated referenced documents, only the latest version (including all the amendments) is applicable to this document. GB/T 5169.1-2015 Fire hazard testing for electric and electronic products - Part 1: Terminology concerning fire tests (IEC 60695-4:2012, IDT) ISO 13943:20081) Fire safety - Vocabulary IEC 60216-4-1 Electrical insulating materials - Thermal endurance properties - Part 4- 1) Note: There is a new version ISO 13943:2017. The oven shall be single-chamber, and its temperature difference, fluctuation, and test temperature change shall meet the requirements of IEC 60216-4-1. In addition, after the sample is placed into the chamber and the chamber is closed, the temperature of the oven shall return to the specified temperature (±2 °C) within 5 min, and the overshoot shall not exceed 5 °C. 5.2 Temperature measuring device The temperature shall be measured by a device with an accuracy of ±1% or better. The preferred method is to measure the temperature by inserting a type K or J thermocouple into the sample holder. 6 Samples Samples shall be determined by the relevant product specification. The preferred sample is the complete end product. Unless otherwise stated in the relevant specification, three samples shall be tested during the test. 7 Conditioning Unless otherwise specified in the relevant product specification, the sample shall be placed in a laboratory environment with a temperature of 15 ℃~35 ℃ and relative humidity of 75% or lower for at least 24 hours before the test. 8 Test procedure 8.1 Summary The procedure described in 8.2 applies to parts whose end use is to be exposed to a uniform maximum operating temperature. If an enclosure or part is subject to varying temperatures at different locations of the part, or is too large to be placed into an oven, the procedure described in 8.3 may be more applicable. For example, the enclosure of a hair dryer may be hot near the heating element, but the stress relief around the power cord is near room temperature. The procedure described in 8.3 takes into account the temperature differences caused by the operation of the equipment in the oven. 8.2 Parts exposed to a uniform maximum operating temperature Unless otherwise stated in the relevant product specification, the test shall be carried out in an oven; the product shall be placed according to the manufacturer’s product instructions, and the temperature shall be set according to the requirements of a) or b): a) The test temperature shall be the ambient temperature plus the maximum allowable temperature rise of the part that needs to be considered as specified in the relevant product specification, or b) The test temperature shall be the maximum allowable operating temperature of the part that needs to be considered as specified in the relevant product specification. Note 1: The study found that, for handheld devices, it is useful for the product to be supported by a mechanical clamp in at least one representative orientation. Unless otherwise stated in the relevant product specification, the test temperature shall not be lower than 70 °C. In some cases, the product technical committee can choose to increase the test temperature according to the safety factor. This would be appropriate if a safety factor is not included in the operating temperature or temperature rise specified in the relevant product specification. Note 2: A representative safety factor is 10 K. 8.3 Parts exposed to varying operating temperatures Alternative to 8.2, the test shall be carried out in an oven in which the finished product can be energized. Air circulation within the oven shall simulate actual end-use conditions. Unless otherwise stated in the relevant product specification, the air temperature in the oven measured on the product support surface shall be kept at 10 K higher than the maximum allowable ambient temperature for which the end product is designed to operate, but not lower than 60 °C. Unless otherwise stated in the relevant product specification, the end product shall be operated continuously at 106% or 94% of the normal rated voltage, whichever results in a higher temperature. 8.4 Test setup Regardless of which test procedure (8.2 or 8.3) is chosen, after the oven has reached the required test temperature, place each sample in the oven for the duration that is specified in the product specification. The handheld device shall be supported by a mechanical clamp in at least one representative orientation. The sample shall be conditioned in the oven for a period of time according to relevant product specifications, or for the time that is enough to achieve thermal equilibrium, but not less than 7 h. Longer conditioning durations can be selected for parts of a large mass or for samples where the initial testing indicates the possibility of further distortion. After the sample has cooled to room temperature, inspect the sample for shrinkage, bending, or other distortion that may affect its compliance with product specification requirements. ......

BASIC DATA
Standard ID GB/T 5169.19-2022 (GB/T5169.19-2022)
Description (Translated English) Fire hazard testing for electric and electronic products -- Part 19: Abnormal heat -- Mould stress relief distortion test
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard K04
Classification of International Standard 13.220.40; 29.020
Word Count Estimation 10,154
Date of Issue 2022-10-14
Date of Implementation 2023-05-01
Older Standard (superseded by this standard) GB/T 5169.19-2006
Drafting Organization China Electric Apparatus Research Institute Co., Ltd., Zhuhai Gree Electric Co., Ltd., Guangdong Shengyi Technology Co., Ltd., Guangdong South China Home Appliance Research Institute, Jiangsu Kingfa Technology New Materials Co., Ltd., Weikai Testing Technology Co., Ltd., Haijian Testing Co., Ltd. , Zhejiang Yuehua Telecom Co., Ltd., Beijing Tairuite Testing Technology Service Co., Ltd., the Fifth Electronic Research Institute of the Ministry of Industry and Information Technology, Shenzhen International Graduate School of Tsinghua University, Guangdong Midea Refrigeration Equipment Co., Ltd., Shenzhen Customs Industrial Products Testing Technology Center, Zhongke Standard (Ningde) Technology Co., Ltd.
Administrative Organization National Technical Committee for Standardization of Fire Hazard Tests for Electrical and Electronic Products (SAC/TC 300)
Proposing organization China Electrical Equipment Industry Association
Issuing agency(ies) State Administration for Market Regulation, National Standardization Management Committee

BASIC DATA
Standard ID GB/T 5169.19-2006 (GB/T5169.19-2006)
Description (Translated English) Fire hazard testing for electric and electronic products. Part 19: Abnormal heat. Mould stress relief distortion test
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard K04
Classification of International Standard 29.020
Word Count Estimation 10,138
Date of Issue 2006-03-14
Date of Implementation 2006-09-01
Quoted Standard IEC 60216-4-1: 1990; IEC Guide 104: 1997
Adopted Standard IEC 60695-10-3-2002, IDT
Drafting Organization Guangzhou Electric Apparatus Research Institute
Administrative Organization National Electronic and Electrical Products Environmental conditions and environmental tests Standardization Technical Committee
Regulation (derived from) China Announcement of Newly Approved National Standards No. 4, 2006 (No. 91 overall)
Summary This standard specifies the molded stress relief distortion test used by the Commission as a product of an experimental approach. This section applies to a polymeric material containing parts of Electrical Equipment. This test is used to simulate the product or components higher than the maximum normal operating temperature in the case of stress due to mold various effects produced by the release and the resulting variations observed in nature.