Application of rainflow cycle counting in the reliability prediction of automotive front corner module system

2009 16th International Conference on Industrial Engineering and Engineering Management Pub Date : 2009-12-04 DOI:10.1109/ICIEEM.2009.5344498

E. A. A. E. Mohamed, M. Yusuff, A. P. K. A. Wahab

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引用次数: 5

Abstract

The need for improvement in engineering reliability characterization for automotive components is nowadays becoming a major industry request. The post-design approach in determining reliability is inappropriate for an integrated product development process that aims to incorporate engineering life cycle requirements from the early stage. This paper intends to give a description of a method used in predicting the service loads in the reliability characterization of the automotive front corner module system. An accurate representation of the service environment as well as load histories is obtained from the proving ground by data acquisition. The acquired service load data is applied on durability test rig and number of cycles of the resultant random stress-time data is determined using rainflow cycle counting. Superposition of rainflow matrices is applied in order to replicate the actual service loads profile and cumulative damage analysis based on Palmgren-Miner rule is employed to determine life of components and system.

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雨流循环计数在汽车前转角模块系统可靠性预测中的应用

提高汽车零部件的工程可靠性已成为当今行业的一项重要要求。确定可靠性的后设计方法不适用于旨在从早期阶段纳入工程生命周期需求的集成产品开发过程。本文介绍了一种用于预测汽车前角模块系统可靠性工作负荷的方法。通过数据采集从试验场获得服务环境和负载历史的准确表示。将获得的工作载荷数据应用于耐久性试验台上，并采用雨流循环计数法确定随机应力-时间数据的循环次数。采用雨流矩阵叠加法来模拟实际使用载荷分布，采用基于Palmgren-Miner规则的累积损伤分析来确定部件和系统的寿命。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2009 16th International Conference on Industrial Engineering and Engineering Management

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