GB/T 12085.9-2022 English PDF

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GB/T 12085.9-2022: Optics and photonics - Environmental test methods - Part 9: Solar radiation and weathering
Status: Valid

GB/T 12085.9: Historical versions

Standard ID	USD	BUY PDF	Lead-Days	Standard Title (Description)	Status
GB/T 12085.9-2022	269	Add to Cart	3 days	Optics and photonics - Environmental test methods - Part 9: Solar radiation and weathering	Valid
GB/T 12085.9-2010	239	Add to Cart	3 days	Optics and optical instruments -- Environmental test methods -- Part 9: Solar radiation	Obsolete
GB/T 12085.9-1989	199	Add to Cart	2 days	Optics and optical instruments--Environmental test methods--Solar radiation	Obsolete

Similar standards

GB/T 7962.2   GB/T 10586   JB/T 9329   GB/T 12085.12   GB/T 12085.14   GB/T 12085.1   

Basic data

Standard ID: GB/T 12085.9-2022 (GB/T12085.9-2022)
Description (Translated English): Optics and photonics - Environmental test methods - Part 9: Solar radiation and weathering
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: N030
Classification of International Standard: 37.020
Word Count Estimation: 14,135
Date of Issue: 2022-10-14
Date of Implementation: 2023-05-01
Older Standard (superseded by this standard): GB/T 12085.9-2010
Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration

GB/T 12085.9-2022: Optics and photonics - Environmental test methods - Part 9: Solar radiation and weathering

---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.
Optics and photonics -- Environmental test methods -- Part 9.Solar radiation and weathering ICS 37.020 CCSN030 National Standards of People's Republic of China Replacing GB/T 12085.9-2010 Optical and Photonics Environmental Test Methods Part 9.Solar Radiation and Weathering (ISO 9022-9.2016, MOD) Published on 2022-10-12 2023-05-01 Implementation State Administration for Market Regulation Released by the National Standardization Administration directory Preface III Introduction V 1 Scope 1 2 Normative references 1 3 Terms and Definitions 1 4 Test conditions 1 5 Condition test 2 6 Test procedure 6 7 Environmental test mark 6 8 Specification 6 Reference 7

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 of Standardization Documents" drafted. This document is part 9 of GB/T 12085 "Environmental test methods for optics and photonics". GB/T 12085 has been released to the next part. --- Part 1.Terminology, test scope; --- Part 2.Low temperature, high temperature, damp heat; --- Part 3.Mechanical forces; --- Part 4.Salt spray; --- Part 6.Sand and dust; --- Part 7.Dripping water and rain; --- Part 8.High internal pressure, low internal pressure, immersion; --- Part 9.Solar radiation and weathering; --- Part 11.Mildew; --- Part 12.Pollution; --- Part 14.Dew, frost, ice; --- Part 17.Comprehensive test of pollution and solar radiation; --- Part 20.Moist air containing sulfur dioxide and hydrogen sulfide; --- Part 22.Comprehensive test of low temperature, high temperature or temperature change and impact or random vibration; --- Part 23.Comprehensive test of low pressure and low temperature, atmospheric temperature, high temperature or damp heat. This document replaces GB/T 12085.9-2010 "Environmental test methods for optics and optical instruments - Part 9.Solar radiation". and Compared with GB/T 12085.9-2010, in addition to structural adjustment and editorial changes, the main technical changes are as follows. --- Change "optical instruments" in the full text to "optical and photonics instruments"; --- Changed the applicable boundaries of "scope" (see Chapter 1, Chapter 1 of the.2010 edition); --- In the test conditions and test procedures, GB/T 2423.24 is used instead of GB/T 2424.14 (see 4.3, 6.1, see the.2010 edition 3.3, 5.1); --- Added Note 1 of 5.1 "This part of GB/T 12085 does not cover wavelengths below 280 nm" (see 5.1); --- Added the content of 5.2 "Condition Test Method 21.Laboratory Weathering" (see 5.2); --- Changed the content of the environmental test mark (see Chapter 7, Chapter 6 of the.2010 edition). This document is modified using ISO 9022-9.2016 "Environmental test methods for optics and photonics - Part 9.Solar radiation and weathering". This document has the following structural adjustments compared to ISO 9022-9.2016. --- Added "Terms and Definitions" chapter; --- Added the article numbering in Chapter 4. The technical differences between this document and ISO 9022-9.2016 and their reasons are as follows. --- Change "optical instrument" in the full text to "optical and photonics instrument" to meet the requirements of the application field of the optical industry; --- Replaced ISO 4892-1.1999 (see 5.2), GB/T 12085.1 with the normatively cited GB/T 16422.1-2019 ISO 9022-1 (see 6.1, Chapter 7) has been adopted to adapt to my country's technical conditions and improve operability; --- Delete the footnote e and description in Table 3 and Table 4 of the international standard (see 4.2) to conform to the geographical situation of our country. The following editorial changes have been made to this document. --- In Chapter 7, ISO 9022 is replaced by GB/T 12085 (all parts) cited for information. Please note that some content of this document may be patented. The issuing agency of this document assumes no responsibility for identifying patents. This document is proposed by China Machinery Industry Federation. This document is under the jurisdiction of the National Optical and Photonics Standardization Technical Committee (SAC/TC103). This document is drafted by. Ningbo Zhanjing Optical Instrument Co., Ltd., Tianjin Aerospace Rayleigh Technology Co., Ltd., Shanghai University of Science and Technology, Chongqing Yintai Technology Co., Ltd. River Test Instrument Co., Ltd., Henan Provincial Special Equipment Safety Testing Research Institute, Ningbo Huaguang Precision Instrument Co., Ltd., Ningbo Yongxin Optical Co., Ltd. Co., Ltd., Nanjing Donglilai Optoelectronics Industry Co., Ltd., Guangzhou Yuexian Optical Instrument Co., Ltd., Ningbo Teaching Instrument Co., Ltd. Co., Ltd., Wuzhou Oka Optical Instrument Co., Ltd., Microaudie Industrial Group Co., Ltd., Suzhou Huili Instrument Co., Ltd., Shanghai Qian Xin Instrument Co., Ltd., Shanghai Xiongbo Precision Instrument Co., Ltd., Nanjing Jiangnan Yongxin Optical Co., Ltd., Shanghai Institute of Optical Instruments, Ningbo Sunny Instrument Co., Ltd. The main drafters of this document. Bao Jinquan, Zhao Wei, Zhang Wei, Li Shushan, Li Changjie, Kong Yanbo, Cui Zhiying, Hong Yiping, Li Migao, Wang Guorui, Zhang Tao, Yang Zesheng, Han Sen, Hua Yue, Jiang Guanxiang, Yao Chen, Feng Qionghui, Hu Senhu. The previous versions of this document and its superseded documents are as follows. --- First published in 1989 as GB 12085.9-1989, first revised in.2010; ---This is the second revision.

Introduction

Optical and photonic instruments are widely used in various fields of national economy and international science and technology, due to the very complex environmental conditions of their use and transportation. There are various environmental conditions, such as physical, chemical, biological, climatic and electrical, which will make optical and photonic instruments The performance of the device has changed and it cannot function properly. In view of the above reasons, in order to ensure the quality of optical and photonics instrument products, it is necessary to simulate a variety of complex changes in environmental conditions. It is necessary to conduct tests on optical and photonics instrument products to assess their ability to withstand harsh environmental conditions, so GB/T 12085 includes test conditions, Conditional tests, test procedures, environmental test markings, etc. At the same time, since there are many environmental conditions and they belong to different types, in order to facilitate the For the implementation of the standard, GB/T 12085 is to be divided into 15 parts according to the type of environmental conditions. --- Part 1.Terminology, test scope. The purpose is to unify the terms and definitions of environmental test methods, test procedures and environmental tests mark. --- Part 2.Low temperature, high temperature, damp heat. The purpose is to study the optical, climatic, mechanical, chemical and electrical (including electrostatic) of the sample The degree to which properties such as these are affected by temperature and humidity. --- Part 3.Mechanical forces. The purpose is to study the optical, climatic, mechanical, chemical and electrical (including electrostatic) properties of the sample. The degree to which sexuality is affected by mechanical forces. --- Part 4.Salt spray. The purpose is to evaluate the ability of the instrument surface and protective coating (plating) to resist salt spray. --- Part 6.Sand and dust. The purpose is to study the optical, climatic, mechanical, chemical and electrical (including electrostatic) properties of the sample by The degree of variation in the effects of sand and dust. --- Part 7.dripping, raining. The purpose is to study the optical, climatic, mechanical, chemical and electrical (including electrostatic) properties of the sample The degree of change affected by dripping water and rain. --- Part 8.High internal pressure, low internal pressure, immersion. The purpose is to study the optical, climatic, mechanical, chemical and electrical (including static The degree to which properties such as electricity are affected by high pressure, low pressure, or immersion in the ambient gas. --- Part 9.Solar radiation and weathering. The purpose is to study the optical, climatic, mechanical, chemical and electrical (including electrostatic) of the sample The degree to which properties such as these are affected by solar radiation or wind energy (solar exposure, damp heat). --- Part 11.Mildew. The purpose is to study the optical, climatic, mechanical, chemical and electrical (including electrostatic) properties of the sample by The degree of influence of mold growth, and evaluation of mold metabolites (such as enzymes or acids) cause corrosion of parts or cause Severity of circuit board short circuit, etc. --- Part 12.Pollution. The purpose is to study instruments, especially instrument surfaces, coatings or composite materials exposed to short-term exposure to Resistance in reagents. --- Part 14.Dew, frost, ice. The purpose is to study the optical, climatic, mechanical, chemical and electrical (including electrostatic) properties of the sample Degree of exposure to dew, frost, and ice. --- Part 17.Pollution, solar radiation comprehensive test. The purpose is to study the instrument, especially the surface, coating or composite material of the instrument The material is resistant to corrosion by reagents and solar radiation in a short time. --- Part 20.Moist air containing sulfur dioxide and hydrogen sulfide. The purpose is to study the optical, climatic, mechanical, chemical and electrical properties of the sample Properties such as gas (including static electricity) are affected by sulfur dioxide or hydrogen sulfide. --- Part 22.Comprehensive test for low temperature, high temperature or temperature change and impact or random vibration. The purpose is to study the optical, Climatic, mechanical, chemical and electrical (including electrostatic) properties subject to combined low temperature, high temperature or temperature variation with impact or random vibration the degree of change in the impact. --- Part 23.Comprehensive test of low pressure and low temperature, atmospheric temperature, high temperature or damp heat. The purpose is to study the optical, climatic, mechanical The degree to which mechanical, chemical and electrical (including electrostatic) performance characteristics are affected by a combination of low and low, ambient or elevated temperatures. Optical and Photonics Environmental Test Methods Part 9.Solar Radiation and Weathering

1 Scope

This document describes environmental test methods for optical and photonics solar radiation and weathering tests. This document applies to solar radiation from optical and photonic instruments and components from other fields such as mechanical, chemical and electronic equipment and weathering test.

2 Normative references

The contents of the following documents constitute essential provisions of this document through normative references in the text. Among them, dated citations documents, only the version corresponding to that date applies to this document; for undated references, the latest edition (including all amendments) applies to this document. GB/T 2423.24-2013 Environmental Test Part 2.Test Method Test Sa. Simulated Solar Radiation on the Ground and Its Test Test guideline (IEC 60068-2-5.2010, IDT) GB/T 12085.1 Optical and Photonics Environmental Test Methods Part 1.Terminology, Test Scope (GB/T 12085.1-2022, ISO 9022-1.2016, MOD) GB/T 16422.1-2019 Plastics Laboratory Light Source Exposure Test Methods Part 1.General (GB/T 16422.1-2019, ISO 4892-1.2016, IDT) ISO 4892-2.2013 Plastics Laboratory Light Exposure Test Methods Part 2.Xenon Arc Lamps (Plastics-Methodsof Note. GB/T 16422.2-2014 Plastics Laboratory Light Source Exposure Test Method Part 2.Xenon Arc Lamp (ISO 4892-2.2006, IDT) ISO 9370 General guide and basic test methods for the instrumental determination of radiation exposure in climatic testing of plastics (Plastics-Instru-

3 Terms and Definitions

There are no terms and definitions that need to be defined in this document.

4 Test conditions

4.1 The radiation source should be installed in a thermal test chamber (chamber) that can generate irradiance on the surface of the sample or in the plane specified in the relevant specifications. The spectral energy distribution of the source is specified in Table 1.The data in Table 1 do not include infrared radiation reflected from the box walls. Table 1 Spectral energy distribution of radiation sources Spectral range UV-Vis IR Wavelength width/nm 280~320 >320~400 >400~520 >520~640 >640~780 >780~3000 Irradiance/(W/m2) 5±2 63±15.200±20 186±20 174±20 492±100 ......

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