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Reliability Evaluation of Machine Center Components Based on Cascading Failure Analysis

Zeitschrift:: Chinese Journal of Mechanical Engineering > Ausgabe 4/2017

Autoren:: Ying-Zhi Zhang, Jin-Tong Liu, Gui-Xiang Shen, Zhe Long, Shu-Guang Sun

Wichtige Hinweise

Supported by National Natural Science Foundation of China (Grant No. 51175222), Jilin Provincial Natural Science Foundation of China (Grant No. 20150101025JC ), and High-end CNC machine tools and basic manufacturing equipment science and technology of major special projects (Grant No.2015ZX04003002)

Abstract

In order to rectify the problems that the component reliability model exhibits deviation, and the evaluation result is low due to the overlook of failure propagation in traditional reliability evaluation of machine center components, a new reliability evaluation method based on cascading failure analysis and the failure influenced degree assessment is proposed. A direct graph model of cascading failure among components is established according to cascading failure mechanism analysis and graph theory. The failure influenced degrees of the system components are assessed by the adjacency matrix and its transposition, combined with the Pagerank algorithm. Based on the comprehensive failure probability function and total probability formula, the inherent failure probability function is determined to realize the reliability evaluation of the system components. Finally, the method is applied to a machine center, it shows the following: 1) The reliability evaluation values of the proposed method are at least 2.5% higher than those of the traditional method; 2) The difference between the comprehensive and inherent reliability of the system component presents a positive correlation with the failure influenced degree of the system component, which provides a theoretical basis for reliability allocation of machine center system.

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Zhou Yang, Yun-Peng Zhu, Hong-Rui Ren, et al. Comprehensive reliability allocation method for CNC lathes based on cubic transformed functions of failure mode and effects analysis. Chinese Journal of Mechanical Engineering, 2015, 28(2): 315–324.

Yi-Cong Gao, Yi-Xiong Feng, Jian-Rong Tan. Product modular design incorporating preventive maintenance issues. Chinese Journal of Mechanical Engineering, 2016, 29(2): 406–420.

Ying-Min Wang, Fu-Jun Zhang, Tao Cui, et al. Fault diagnosis for manifold absolute pressure sensor(MAP) of diesel engine based on elman neural network observer. Chinese Journal of Mechanical Engineering, 2016, 29(2): 386–395.

Yi Dai, Hang-Jun Zhang, Ya-Zhou Jia. Point estimation and confidence interval of MTBF of machining center. Journal of Tianjin University of Technology and Education, 2007, 17(2): 16–18. (in Chinese)

Ying-Zhi Zhang, Gui-Xiang Shen, Yu-Xia Xue, et al. Failure process for numerical control machine with random ending method. Journal of Jilin University (Engineering and Technology Edition), 2007, 37(6): 1346–1348. (in Chinese)

Ying-Zhi Zhang, Gui-Xiang Shen, Su Wu, et al. 3-parameter Weibull distribution for random truncated NC machine tool fault data. Journal of Jilin University (Engineering and Technology Edition), 2009, 39(2): 378–381. (in Chinese)

Jian-Guo Yang, Zhi-Ming Wang, Guo-Qiang Wang, et al. Likelihood ratio test interval estimation of reliability indices for numerical control machine tools. Journal of Mechanical Engineering, 2012, 48(2): 9–15, 22. (in Chinese)

C S Reese, A G Wilson, J Q Guo, et al. A Bayesian model for integrating multiple sources of lifetime information in system–reliability assessments. Journal of Quality Technology, 2011, 43(2): 127–141.

Zhao-Jun Yang, Ying-Nan Kan, Fei Chen, et al. Bayesian reliability modeling and assessment solution for NC machine tools under small–sample data. Chinese Journal of Mechanical Engineering, 2015, 28(6): 1229–1239.

10.

Wen-Hua Chen, Juan Liu, Liang Gao, et al. Accelerated degradation reliability modeling and test data statistical analysis of aerospace electrical connector. Chinese Journal of Mechanical Engineering, 2011, 24(6): 957–962.

11.

Yi-Jia Cao, Yan-Ru Chen, Li-Hua Cao, et al. Prospects of studies on application of complex system theory in power systems. Proceedings of the CSEE, 2012, 32(19): 1–9, 178. (in Chinese)

12.

Ke Sun, Zhen-Xiang Han, Yi-Jia Cao. Review on models of cascading failure in complex power grid. Power System Technology, 2005, 29(13): 1–9. (in Chinese)

13.

D J Watts, S H Strogatz. Collective dynamics of ‘small–world’ networks. Nature, 1998, 393(6684): 440–442.

14.

D J Watts. Small worlds: the dynamics of networks between order and randomness. Princeton: Princeton university press, 1999.

15.

P Holme, B J Kim, C N Yoon, et al. Attack vulnerability of complex networks. Physical Review E, 2002, 65(1): 056109.

16.

Y C Lai, A E Motter, T Nishikawa. Attacks and cascades in complex networks. Lecture Notes in Physics, 2004, 650: 299–310.

17.

X B Yu, C Singh. A practical approach for integrated power system vulnerability analysis with protection failures. IEEE Transactions on Power Systems, 2004, 19(4): 1811–1820.

18.

Xin Zou, Lin Cheng, Yuan-Zhang Sun. Cascading failure probabilistic assessment of power systems based on operational reliability model for transmission lines. Automation of Electric Power Systems, 2011, 35(13): 7–11, 71. (in Chinese)

19.

Shuo Zhang, Xue-Ping Gu. Determination of the fault series in Cascading fault simulation of power systems. Automation of Electric Power Systems, 2009, 33(14): 12–16. (in Chinese)

20.

Hai-Xiang Zhang, Fei-Peng Lv. Vulnerability evaluation of power grid based on the analysis of cascading failure sequence. Power System Protection and Control, 2013, 41(17): 32–38. (in Chinese)

21.

J H Pickles. A stochastic domino model for a sequential failure process. Reliability engineering, 1986, 16(3): 219–236.

22.

Xiao-Yan Wang, Gui-Xiang Shen, Ying-Zhi Zhang, et al. Dependent coefficient model for complex system based on failure chains. Journal of Jilin University (Engineering and Technology Edition), 2015, 45(2): 442–447. (in Chinese)

23.

Y Sun, L Ma, J Mathew, et al. An analytical model for interactive failures. Reliability Engineering & System Safety, 2006, 91(5): 495–504.

24.

Y Sun, L Ma. Estimate of interactive coefficients// The Proceedings of 2009 8th International Conference on Reliability, Maintainability and Safety, Chengdu, China, July 20–24, 2009: 310–314.

25.

X J Jia, L Cui, J Yan. A study on the reliability of consecutive k-out-of-n: G systems based on copula. Communications in Statistics—Theory and Methods, 2010, 39(13): 2455–2472.

26.

M Ram, S B Singh. Analysis of reliability characteristics of a complex engineering system under copula. Journal of Reliability and Statistical Studies, 2009, 2(1): 91–102.

27.

Jia-Yin Tang, Yong-Xiang Zhao, Ping He, et al. Copulas new theory for reliability calculation involving correlation in mechanical systems. Mechanical Science and Technology for Aerospace Engineering, 2009, 28(4): 532–535, 541. (in Chinese)

28.

Ying-Zhi Zhang, Rui Zheng, Gui-Xiang Shen, et al. Failure dependency of CNC equipment based on copula theory. Journal of Jilin University (Engineering and Technology Edition), 2011, 41(6): 1636–1640. (in Chinese)

29.

S Brin, L Page. The anatomy of a large-scale hypertextual Web search engine. Computer Networks and ISDN Systems, 1998, 30(1): 107–117.

30.

Zhi-Ying Li, Wu Yang, Zhi-Jun Xie. Research on Pagerank algorithm. Computer Science, 2011, 38(10A):185–188. (in Chinese)

31.

De-Guang Wang, Zhi-Gang Zhou, Xu Liang. Analysis of Pagerank algorithm and improvement. Computer Engineering, 2010, 36(22): 291–293. (in Chinese)

32.

Gui-Xiang Shen, Shu Meng, Ying-Zhi Zhang, et al. Application of average rank time method in reliability modeling for subsystems. Journal of Jilin University (Engineering and Technology Edition), 2014, 44(1): 101–105. (in Chinese)

Titel: Reliability Evaluation of Machine Center Components Based on Cascading Failure Analysis
Autoren:: Ying-Zhi Zhang
Jin-Tong Liu
Gui-Xiang Shen
Zhe Long
Shu-Guang Sun
Publikationsdatum: 01.07.2017
DOI: https://doi.org/10.1007/s10033-017-0144-y
Verlag: Chinese Mechanical Engineering Society
Zeitschrift: Chinese Journal of Mechanical Engineering
Ausgabe 4/2017
Print ISSN: 1000-9345
Elektronische ISSN: 2192-8258

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