当前位置: X-MOL 学术Qual. Reliab. Eng. Int. › 论文详情
Early failure active elimination system research for electromechanical product based on meta‐action
Quality and Reliability Engineering International ( IF 1.718 ) Pub Date : 2021-02-22 , DOI: 10.1002/qre.2859
Yulong Li; Shutao Wen; Shengquan Liu; Lingyu Zhao; Qinghang Wang; Genbao Zhang

Frequent early failures have been the key factor restricting the reliability improvement of electromechanical product, and also reducing its market competitiveness. Most of the current early failure elimination methods are passive elimination technologies after a failure. Their purpose is to quickly restore the production capacity of products, which is mainly used to improve the reliability of the products, and cannot fundamentally improve the quality of the manufactured product. To address those problems, this paper first analyzed the causes of early failures in the production stage of electromechanical product, and studied the corresponding early failure elimination mechanism; second, according to the FRACAS (Failure Report Analysis and Corrective Action System), an early failure elimination method for electromechanical product was proposed based on the meta‐action unit; finally, in order to ensure the smooth implementation of early failure elimination measures, a set of early failure active elimination guarantee management system was established. In addition, this paper also introduced the specific implementation process of the proposed method. The proposed method is applied to engineering, and the results verify its correctness. The proposed method provides a theoretical basis and technical support for the elimination of electromechanical product early failure.

中文翻译:

基于元作用的机电产品早期故障主动消除系统研究

频繁的早期故障已成为限制机电产品可靠性提高并降低其市场竞争力的关键因素。当前,大多数早期的故障消除方法都是故障后的被动消除技术。其目的是快速恢复产品的生产能力,这主要是为了提高产品的可靠性,而不能从根本上提高制成品的质量。为了解决这些问题,本文首先分析了机电产品生产阶段早期失效的原因,并研究了相应的早期失效消除机制。其次,根据FRACAS(故障报告分析和纠正措施系统),提出了一种基于元作用单元的机电产品早期故障消除方法。最后,为确保早期故障消除措施的顺利实施,建立了一套早期故障主动消除保证管理系统。另外,本文还介绍了该方法的具体实现过程。将该方法应用于工程,结果证明了该方法的正确性。该方法为消除机电产品的早期故障提供了理论依据和技术支持。本文还介绍了该方法的具体实现过程。将该方法应用于工程,结果证明了该方法的正确性。该方法为消除机电产品的早期故障提供了理论依据和技术支持。本文还介绍了该方法的具体实现过程。将该方法应用于工程,结果证明了该方法的正确性。该方法为消除机电产品的早期故障提供了理论依据和技术支持。
更新日期:2021-02-22
全部期刊列表>>
牛年开工季
JCR Q1医学全学科
新春生命科学
新春医学
空气污染与健康
虚拟特刊
亚洲大洋洲地球科学
NPJ欢迎投稿
自然科研论文编辑
ERIS期刊投稿
欢迎阅读创刊号
自然职场,为您触达千万科研人才
spring&清华大学出版社
城市可持续发展前沿研究专辑
Springer 纳米技术权威期刊征稿
全球视野覆盖
施普林格·自然新
chemistry
物理学研究前沿热点精选期刊推荐
自然职位线上招聘会
欢迎报名注册2020量子在线大会
化学领域亟待解决的问题
材料学研究精选新
GIANT
ACS ES&T Engineering
ACS ES&T Water
屿渡论文,编辑服务
阿拉丁试剂right
上海中医药大学
南科大-连续三周2.26
西湖大学
化学所
北京大学
厦门大学
隐藏1h前已浏览文章
课题组网站
新版X-MOL期刊搜索和高级搜索功能介绍
ACS材料视界
清华
南方科技大学
中国石油大学
天合科研
x-mol收录
试剂库存
down
wechat
bug