DocumentCode
2795887
Title
Accelerated life testing on repairable systems
Author
Guérin, Fabrice ; Dumon, Bernard ; Lantieri, Pascal
Author_Institution
Angers Univ., France
fYear
2004
fDate
26-29 Jan. 2004
Firstpage
340
Lastpage
345
Abstract
In this paper, we define two accelerated life models for repairable systems: the Arrhenius-exponential model and the Peck-Weibull model. Thus, we show that is possible to estimate the reliability of a product during its development with a small number of prototypes using accelerated life testing with the ability to repair when a failure occurs. This method allows us to improve the accuracy in the estimation of reliability parameters where the accuracy is linked to the number of failure times that are available. Nevertheless, these models assume "minimal repairing" such that any repair has no impact on the failure rate.
Keywords
Weibull distribution; failure analysis; life testing; maintenance engineering; reliability; stochastic processes; Poisson process; accelerated life testing; failure rate; product reliability; repairable systems; Exponential distribution; Failure analysis; Life estimation; Life testing; Parameter estimation; Prototypes; Reliability engineering; Stress; System testing; Technological innovation;
fLanguage
English
Publisher
ieee
Conference_Titel
Reliability and Maintainability, 2004 Annual Symposium - RAMS
Print_ISBN
0-7803-8215-3
Type
conf
DOI
10.1109/RAMS.2004.1285472
Filename
1285472
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