面向测试性的FMECA方法研究
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摘要
随着装备研制水平的不断提高,系统、设备或产品的测试性水平逐渐引起设计人员、使用人员和维修人员的重视,测试性设计分析与验证工作也逐渐深入到产品研发的各个阶段。面向测试性的故障模式、影响及危害性分析(FMECA)方法是开展产品测试性工作的重中之重,明确该方法与标准FMECA方法的区别与联系,深入研究该方法的实施流程及使用过程中的注意事项,供测试性及预测与健康管理(PHM)的设计分析使用,为装备研制过程中测试性工作的开展提供了便利,具有重要意义。
With the continuous improvement of the level of the equipment development, the testability level of the systems, equipments, or products has gradually attracted the attention of designers, users and maintenance personnel, the testability design analysis and verification have also gradually penetrated into all stages of product development. The testability-oriented failure modes, effects, and critically analysis( FMECA) method is the most important part of product testability, so in order to use this method in testability and PHM design analysis and confirm the difference and connection between this method and the standard FMECA method, the implementation process and precautions of this method are studied, which provides convenience for the testing work in the course of equipment development and is of great significance.
With the continuous improvement of the level of the equipment development, the testability level of the systems, equipments, or products has gradually attracted the attention of designers, users and maintenance personnel, the testability design analysis and verification have also gradually penetrated into all stages of product development. The testability-oriented failure modes, effects, and critically analysis( FMECA) method is the most important part of product testability, so in order to use this method in testability and PHM design analysis and confirm the difference and connection between this method and the standard FMECA method, the implementation process and precautions of this method are studied, which provides convenience for the testing work in the course of equipment development and is of great significance.
引文
[1]中国人民解放军总装备部.可靠性维修性保障性术语:GJB451A-2005[S].北京:总装备部军标出版发行部,2005.
[2]中国人民解放军总装备部.装备测试性工作通用要求:GJB 2547A-2012[S].北京:总装备部军标出版发行部,2012.
[3]闵庭荫,万会兵.基于FMECA的测试性验证分析[J].航空电子技术,2015,46(1):52-56.
[4]中国人民解放军总装备部.故障模式、影响及危害性分析指南:GJB/Z 1391-2006[S].北京:总装备部军标出版发行部,2006.
[5]陈颖,康锐.FMECA技术及其应用[M].北京:国防工业出版社,2014.
[6]曾声奎,任羿.可靠性设计分析基础[M].北京:北京航空航天大学出版社,2015.
[7]曾利,汪小林.测试性试验的FMECA方法研究[J].电子产品可靠性与环境试验,2016,34(3):54-60.
[8]石君友.测试性设计分析与验证[M].北京:国防工业出版社,2011.
[2]中国人民解放军总装备部.装备测试性工作通用要求:GJB 2547A-2012[S].北京:总装备部军标出版发行部,2012.
[3]闵庭荫,万会兵.基于FMECA的测试性验证分析[J].航空电子技术,2015,46(1):52-56.
[4]中国人民解放军总装备部.故障模式、影响及危害性分析指南:GJB/Z 1391-2006[S].北京:总装备部军标出版发行部,2006.
[5]陈颖,康锐.FMECA技术及其应用[M].北京:国防工业出版社,2014.
[6]曾声奎,任羿.可靠性设计分析基础[M].北京:北京航空航天大学出版社,2015.
[7]曾利,汪小林.测试性试验的FMECA方法研究[J].电子产品可靠性与环境试验,2016,34(3):54-60.
[8]石君友.测试性设计分析与验证[M].北京:国防工业出版社,2011.