From 1986 to 2023: Three-level Leaps of Environmental Testing Standards for Military Equipment in China

FU Yun; CHEN Xueqing; LI Minwei; LI Ming; SUN Jianyong

doi:10.7643/issn.1672-9242.2025.08.019

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Equipment Environmental Engineering ›› 2025, Vol. 22 ›› Issue (8) : 158-163. DOI: 10.7643/issn.1672-9242.2025.08.019

Environmental Test and Observation

From 1986 to 2023: Three-level Leaps of Environmental Testing Standards for Military Equipment in China

FU Yun, CHEN Xueqing, LI Minwei, LI Ming, SUN Jianyong

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Abstract

The work aims to review the development process of China’s environmental testing standard GJB 150 for military equipment from 1986 to 2023, dividing it into “three leaps”. Firstly, the formulation of GJB 150—1986 achieves a leap from nothing to something, laying the foundation for China’s environmental testing for military equipment. Secondly, the revision of GJB 150 achieves a leap from environmental testing to environmental engineering, introducing the concept of full life cycle environmental engineering and providing support for the enhancement of the environmental adaptability of equipment. Finally, the revision of GJB 150A achieves a leap from “imitation” to “independent innovation”, increasing the coverage of testing methods and improving the practicality and advanced nature of the standard through independent research and development. On this basis, specific suggestions are put forward to promote the application of new standards.

Key words

military equipment / environmental engineering / laboratory environmental testing / testing standard / GJB 150 / independent innovation

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FU Yun, CHEN Xueqing, LI Minwei, LI Ming, SUN Jianyong. From 1986 to 2023: Three-level Leaps of Environmental Testing Standards for Military Equipment in China[J]. Equipment Environmental Engineering. 2025, 22(8): 158-163 https://doi.org/10.7643/issn.1672-9242.2025.08.019

References

[1] 祝耀昌. 产品环境工程概论[M]. 北京: 航空工业出版社, 2003: 2-7.
ZHU Y C.Introduction to Product Environmental Engineering[M]. Beijing: Aviation Industry Press, 2003: 2-7.
[2] 祝耀昌. 美国军用标准 MIL-STD-810的产生与发展[J]. 航空标准化, 1983(4): 42-47.
ZHU Y C.The Emergence and Development of American Military Standard MIL-STD-810[J]. Aeronautic Standardization & Quality, 1983(4): 42-47.
[3] 中国人民解放军总装备部. 军用设备环境试验方法: GJB 150—1986[S]. 北京: 中国标准出版社, 1986.
General Armaments Department of the People's Liberation Army. Environmental Test Methods for Military Equipments: GJB 150—1986[S]. Beijing: Standards Press of China, 1986.
[4] 祝耀昌, 孙建勇. 装备环境工程技术及应用[J]. 装备环境工程, 2005, 2(6): 1-9.
ZHU Y C, SUN J Y.Materiel Environmental Engineering Technology and Its Application[J]. Equipment Environmental Engineering, 2005, 2(6): 1-9.
[5] 祝耀昌, 傅耘, 徐明. 国外环境工程发展综述(下)[J]. 航空标准化与质量, 1998(3): 41-45.
ZHU Y C, FU Y, XU M.Review on the Development of Foreign Environmental Engineering(Ⅱ)[J]. Aeronautic Standardization & Quality, 1998(3): 41-45.
[6] 孙建勇, 祝耀昌. GJB 4239《装备环境工程通用要求》简介[J]. 装备环境工程, 2006, 3(3): 110-115.
SUN J Y, ZHU Y C.Introduction to GJB 4239? a “General Requirements for Material Environmental Engineering”[J]. Equipment Environmental Engineering, 2006, 3(3): 110-115.
[7] 中国人民解放军总装备部. 装备环境工程通用要求: GJB 4239—2001[S]. 北京: 中国标准出版社, 2001.
General Armaments Department of the People's Liberation Army. General Requirements for Materiel Environmental Engineering: GJB 4239—2001[S]. Beijing: Standards Press of China, 2001.
[8] 中国人民解放军总装备部. 装备环境工程通用要求: GJB 4239A—2022[S]. 北京: 中国标准出版社, 2022.
General Armaments Department of the People's Liberation Army. General Requirements for Materiel Environmental Engineering: GJB 4239A—2022[S]. Beijing: Standards Press of China, 2022.
[9] 祝耀昌, 魏莱, 程丛高. GJB 150/150A、GJB 4239和MIL-STD-810F/G的特性和相互关系分析[J]. 航天器环境工程, 2012, 29(3): 243-249.
ZHU Y C, WEI L, CHENG C G.Characteristics and Relations among GJB 150/150A, GJB 4239 and MIL-STD- 810F/G[J]. Spacecraft Environment Engineering, 2012, 29(3): 243-249.
[10] 中国人民解放军总装备部. 军用装备实验室环境试验方法: GJB 150A—2009[S]. 北京: 中国标准出版社, 2009.
General Armaments Department of the People's Liberation Army. Laboratory Environmental Test Methods for Military Materiel: GJB 150A—2009[S]. Beijing: Standards Press of China, 2009.
[11] 祝耀昌, 王建刚, 张建军. GJB 150A与GJB 150内容对比和分析(二)[J]. 航天器环境工程, 2011, 28(2): 110-114.
ZHU Y C, WANG J G, ZHANG J J.A Comparative Study of GJB 150A and GJB 150(Part Ⅱ)[J]. Spacecraft Environment Engineering, 2011, 28(2): 110-114.
[12] 祝耀昌, 李明. 谈谈环境工程剪裁和环境试验剪裁[J]. 航天器环境工程, 2012, 29(5): 479-485.
ZHU Y C, LI M.Environmental Engineering Tailoring and Environmental Test Tailoring[J]. Spacecraft Environment Engineering, 2012, 29(5): 479-485.
[13] 祝耀昌, 张建军. GJB 150A的应用和剪裁[J]. 航天器环境工程, 2012, 29(6): 608-615.
ZHU Y C, ZHANG J J.Application and Tailoring of GJB 150A[J]. Spacecraft Environment Engineering, 2012, 29(6): 608-615.
[14] 祝耀昌, 张建军. 武器装备环境适应性要求、环境适应性验证要求和环境条件及其相互关系的讨论(一)[J]. 航天器环境工程, 2012, 29(1): 1-6.
ZHU Y C, ZHANG J J.Relationship among Environmental Adaptability Requirements, verification Requirements of Environmental Adaptability and Environmental Conditions(Part One)[J]. Spacecraft Environment Engineering, 2012, 29(1): 1-6.
[15] 祝耀昌, 张建军. 武器装备环境适应性要求、环境适应性验证要求和环境条件及其相互关系的讨论(二)[J]. 航天器环境工程, 2012, 29(2): 119-122.
ZHU Y C, ZHANG J J.Discussion of Relationships among Environmental Worthiness Requirement, verification Requirement of Environmental Worthiness and Environmental Conditions of Materiel (Part Two)[J]. Spacecraft Environment Engineering, 2012, 29(2): 119-122.
[16] 傅耘, 史左敏, 李敏伟. 新体制下装备环境适应性试验鉴定的思考[J]. 装备环境工程, 2023, 20(5): 1-5.
FU Y, SHI Z M, LI M W.Thoughts on Materiel Environmental Worthiness Test and Evaluation in New System[J]. Equipment Environmental Engineering, 2023, 20(5): 1-5.
[17] DOD. Environmental Engineering Considerations and Laboratory Tests: MIL-STD-810H(1)[S]. Washington: Department of Defense, 2022.
[18] MOD. Environmental Handbook for Defence Materiel: DEF STAN 00-035—2017[S]. London: MOD, 1996.
[19] NATO. Environmental Testing for Military Equipment: NATO STANAG 4370[S]. Brussels: NATO Standardization Office, 2019.
[20] 张令波, 李明, 傅耘. 舰载机环境试验方法发展探讨[J]. 装备环境工程, 2015, 12(6): 100-103.
ZHANG L B, LI M, FU Y.Development of Environmental Test Methods for Carrier-Based Aircraft[J]. Equipment Environmental Engineering, 2015, 12(6): 100-103.
[21] 朱金阳, 李明, 程丛高. 美海军舰载航空装备“盐雾-SO₂”试验方法发展历程及启示[J]. 装备环境工程, 2017, 14(3): 33-38.
ZHU J Y, LI M, CHENG C G.Development and Enlightenment of “Salt Spray-SO₂” Test Method for Carrier-Based Aircraft of US Navy[J]. Equipment Environmental Engineering, 2017, 14(3): 33-38.
[22] ASTM. Standard Practice for Modified Salt Spray (Fog) Testing: ASTM G85-19[S]. New York: ASTM International, 2019.
[23] 徐丽, 陈跃良, 武书阁, 等. 舰载机舰面停放环境及腐蚀情况研究[J]. 飞机设计, 2016, 36(6): 54-57.
XU L, CHEN Y L, WU S G, et al.The Study about the Deck Park Environment of Carrier-Based Aircraft and Corrosive State[J]. Aircraft Design, 2016, 36(6): 54-57.
[24] 李明, 朱金阳, 李刚, 等. 典型航空装备用金属材料在不同酸性盐雾环境下的腐蚀效应及机理[J]. 装备环境工程, 2019, 16(4): 38-45.
LI M, ZHU J Y, LI G, et al.Corrosion Performance and Mechanism of Typical Aviation Metal Materials under Different Acid Salt Spray Test Environments[J]. Equipment Environmental Engineering, 2019, 16(4): 38-45.
[25] 朱蒙, 李明, 李刚, 等. 不同环境下微动开关腐蚀形貌及接触电阻变化对比分析研究[J]. 装备环境工程, 2019, 16(4): 87-92.
ZHU M, LI M, LI G, et al.Corrosion Morphology and Contact Resistance of Microswitch in Different Environments[J]. Equipment Environmental Engineering, 2019, 16(4): 87-92.
[26] 贾润川, 李明, 朱蒙, 等. 两种实验室方法模拟舰载平台环境下航空电路板的腐蚀行为[J]. 海军航空大学学报, 2022, 37(6): 469-478.
JIA R C, LI M, ZHU M, et al.Two Laboratory Methods to Simulate the Corrosive Behavior of Aviation Circuit Boards in the Shipboard Platform Environment[J]. Journal of Naval Aviation University, 2022, 37(6): 469-478.
[27] 傅耘, 张建军, 李明, 等. 关于环境工程数字化转型的思考[J]. 装备环境工程, 2024, 21(5): 13-23.
FU Y, ZHANG J J, LI M, et al.Reflections on Digital Transformation of Environmental Engineering[J]. Equipment Environmental Engineering, 2024, 21(5): 13-23.