Transactions of Materials and Heat Treatment

Title：Comprehensive reliability allocation method for high-speed feeder based on interval analytic hierarchy process

Authors： Zhu Qingpeng Sun Yu Chen Hao Wang Shuanhu

Unit： Nanjing University of Science and Technology

KeyWords： high-speed feeder reliability allocation interval analytic hierarchy process multi-stage fuzzy assessment

ClassificationCode：

year,vol(issue):pagenumber：2015,40(4):131-136

Abstract：

Because of many fuzzy factors, the quantitative analysis of reliability of high-speed feeder allocation is difficult to carry out. For this problem, a comprehensive reliability allocation method for high-speed feeding machine was proposed combining the multi-stage fuzzy assessment with the interval analytic hierarchy process (IAHP) and depending on the experts experience and the actual recorded data. First of all, the interval analytic hierarchy process was used to quantify the fuzzy information, and then, the relative reliability level of each subcomponent was evaluated by the multilevel fuzzy assessment. Finally, the reliability index of high-speed feeding machine was linearly allocated by the above method, and the experiment was given to verify the method. Results show that the interval number used to represent the fuzzy information insteading of the specific value can make the expert assessments cores more realistic. Meanwhile, the reliability evaluation combined with the actual recorded data makes the allocation result more according with the objective reality. In summary, this method can be used to solve the reliability allocation problem of the high-speed feeder or similar products currently.

Funds：

国家科技重大专项（2013ZX04002-082）

朱庆鹏（1990-），男，硕士研究生

Reference：

[1]陆廷孝，郑鹏洲，何国伟，等.可靠性设计与分析[M].北京：国防工业出版社，1995.

Lu T X, Zheng P Z, He G W, et al. Analysis and Design of Reliability[M]. Beijing: National Defense Industry Press, 1995.

[2]Alice Yalaoui, Chengbin Chu, Eric Chtelet. Reliability allocation problem in a series-parallel system[J]. Reliability Engineering and System Safety,2005,90(1): 55-61.

[3]彭宝华，赵建印，孙权.复杂系统可靠性分配的层次分析法[J].电子产品可靠性与环境实验,2005,23(6):58-62.

Peng B H, Zhao J Y, Sun Q. Reliability allocation of complex system analytic hierarchy process [J].Electronic product Reliability and Environmental Test, 2005, 23,(6): 58-62.

[4]Wang Y Q，Yam R C M, Zuo M J, et al. A comprehensive reliability allocation method for design of CNC lathes [J]. Reliability Engineering and System Safety, 2001, 72(3): 247-252.

[5]Lee Gwoluh, Lin Horngjyh, Yu Tsewei, et al. Optimal allocation for improving system reliability using AHP[A]. 30th International Conference on Software Engineering[C]. Germany:Leipzig，2008.

[6]Zhang G B，Liao X B. Research on reliability allocation of direct-drive hobbing machine [A].13th International Manufacturing Conference in China[C].Dalian, 2009.

[7]张根保，柳剑，王国强. 基于任务的数控机床模糊可靠性分配方法[J].计算机集成制造系统，2012，18（4）：768-774.

Zhang G B, Liu J, Wang G Q. The CNC machine tool task fuzzy reliability allocation method [J]. Computer Integrated Manufacturing Systems, 2012, 18 (4): 768-774.

[8]王胜，刘宏. 基于模糊综合评判与层次分析法的数控车床精度可靠性分配[J].机械科学与技术，2013,32（10）：1441-1445.

Wang S, Liu H. The accuracy of NC lathe reliability distribution comprehensive evaluation and analytic hierarchy fuzzy based method[J]. Mechanical Science and Technology, 2013, 32 (10): 1441-1445.

[9]MahaPatra G S，Roy T K. Fuzzy multi-objective mathematical programming on reliability optimization [J].Model Applied Mathematics and Computation, 2006,174: 643-659.

[10]芮延年，傅戈宴.现代可靠性工程[M].北京：国防工业出版社，2007.

Rui Y N, Fu G Y. Modern Reliability Engineering [M]. Beijing: National Defense Industry Press, 2007

[11]许树柏.层次分析法原理[M].天津: 天津大学出版社，1988.

Xu S B. The Principle of Analytic Hierarchy Process [M]. Tianjin: Tianjin University Press, 1988.

[12]韩利，梅强，陆玉梅，等. AHP-模糊综合评价方法的分析与研究[J].中国安全科学学报，2004，14(7): 86-89.

Han L, Mei Q, Lu Y M, et al. The fuzzy comprehensive evaluation method of AHP-analysis and Research [J]. China Safety Science Journal, 2004, 14 (7): 86-89.

[13]王少萍，崔明山，雷利军，等.基于层次分析的液压负载模拟器控制软件可靠性分配[J].机床与液压，2004,(10) ：23-26.

Wang S P, Cui M S, Lei L J, et al. Control software reliability allocation load simulator hydraulic based on analytic hierarchy process[J]. Machine Tool & Hydraulics, 2004, (10):23-26.

[14]Moore R，Lodwick W. Interval analysis and fuzzy set theory [J]. Fuzzy Sets and Systems, 2003, 135（1）：5-9.

[15]兰继斌，徐扬，霍良安，等.模糊层次分析法权重研究[J].系统工程理论与实践，2006,（9）：108-112.

Lan J B, Xu Y, Huo L A, et al. Fuzzy AHP research [J]. The Theory and Practice of System Engineering, 2006,(9): 108-112.

[16]杜丽，黄洪钟，宋巍.采用多级模糊评价的柴油机可靠性分配[J].机械设计与研究，2009，25（1）：107-110.

Du L, Huang H Z, Song W. By multilevel fuzzy evaluation of diesel engine reliability allocation[J]. Research and Design of Machinery, 2009, 25 (1): 107-110.

[17]杨玉涛，张小栋.高速电磁阀模型建立及响应特性研究[J].测控技术，2008，27（6）：86-89.

Yang Y T, Zhang X D. Design of high speed solenoid valve model and study on the response characteristics[J]. The Measurement and Control Technology, 2008, 27 (6): 86-89.

[18]任杉，李玮，韩青.基于MATLAB的阀控缸伺服系统仿真分析[J].装备制造技术，2009，（9）：32-33.

Ren S, Li W, Han Q. Analysis cylinder servo system simulation control valve based on MATLAB[J]. The Equipment Manufacturing Technology, 2009, (9): 32-33.

Service：

【This site has not yet opened Download Service】【Add Favorite】