Authors: Jinyong Yao, Hongzhi Li, Chao Du, Jiao Li

Abstract:

Reliability of long-term storage products is related to the availability of the whole system, and the evaluation of storage life is of great necessity. These products are usually highly reliable and little failure information can be collected. In this paper, an analytical method based on data from accelerated storage life test is proposed to evaluate the reliability index of the long-term storage products. Firstly, singularities are eliminated by data normalization and residual analysis. Secondly, with the preprocessed data, the degradation path model is built to obtain the pseudo life values. Then by life distribution hypothesis, we can get the estimator of parameters in high stress levels and verify failure mechanism consistency. Finally, the life distribution under the normal stress level is extrapolated via the acceleration model and evaluation of the actual average life is available. An application example with the camera stabilization device is provided to illustrate the methodology we proposed.

Keywords: Accelerated storage life test, failure mechanism consistency, life distribution, reliability.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1100743

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References:

[1] Wang Z B, Ren W B, Li G F. Review of Accelerated Degradation Testing and Accelerated Life Testing. Low Voltage Apparatus, 2010, (1):1-6.
[2] Gao C, Jiang M. Degradation Path Modeling Method Based on Time Series Analysis. Applied Mechanics and Material, 2012, 3(6):121-126.
[3] Zhong Q H, Zhang Z H, Wang L. About model choice of degradation data analysis method. Systems engineering, 2009, 27(11): 111-114.
[4] Gopikrishnan A. Reliability inference based on degradation and time to failure data: some models, methods and efficiency comparisons. The University of Michigan. 2004.
[5] Meeker W Q, Escobar L A, Lu J C. Accelerated degradation tests: modeling and analysis (J). Technometrics. 1998, 40(2):89-99.
[6] Ma X B, Wang J Z, Zhao Y. Based on the degradation data for life distribution reliability assessment method. Systems engineering and electronics. 2010, 33(2): 261-264 (in Chinese).
[7] Zhao Y T. Electromagnetic valve storage life assessment (J) quality and reliability, 2010(5): 25-28.
[8] Filzmoser, P.Walczak, B. What can go wrong at the data normalization step for identification of biomarkers? Journal of Chromatography A. Oct 3, 2014, Vol. 1362, p194, 12 p.
[9] Carrasco, Jalmar MF, Ortega, Edwin MM,Paula, Gilberto A. Log-modified Weibull regression models with censored data: Sensitivity and residual analysis. Computational Statistics and Data Analysis, 2008 52(8): 4021-4039.
[10] Kim Seong-Joon, Bae Suk Joo. Cost-effective degradation test plan for a nonlinear random-coefficients model. In Reliability Engineering and System Safety February 2013 110: 68-79.
[11] Chaos M T. Degradation analysis and related topics: some thoughts and a review. ProcNatlSciCounc. ROC(A), 1999, 23(5): 555-566．
[12] Wang Y H, Li X G. Study on Accelerated Storage Life Test of Initiating Explosive Device Based on Step Stress Method. Equipment Environmental Engineering. 2013, 10(1):38-40.
[13] Li X J. Study on the Confidence Limits for the Mean of Weibull Distributions. Chinese Journal of Applied Probability and Statistics.