The Research on Fuzzy Apportionment of Pump Product Based on FMECA

Ming Wei Hou

doi:10.4028/www.scientific.net/AMM.155-156.1198

Paper Titles

Temperature Numerical Simulation of Friction Stir Welding Process of Radar Cooling Board
p.1180

Contrast Test on Fender Forces Between Flexible and Rigid Berthing Systems
p.1184

A Modification of Adaptive Control and Synchronization of a New Hyper-Chaotic System with Unknown Parameters
p.1189

The Time Siries Design of Profibus-DP Slave Based on FPGA
p.1193

The Research on Fuzzy Apportionment of Pump Product Based on FMECA
p.1198

Analysis of the Influence of Fillet Curves on Gear Bending Strength Based on Space Contact
p.1203

Forward Kinematics Analysis of a Multi-Axis Linkage Wire-Cutting Robot Based on ADAMS
p.1208

Rod Orifice Hydraulic Absorber and Application for Impact Crash Simulation
p.1213

Comparison of Residual Stress Between MIG Welding and Friction Stir Welding
p.1218

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 155-156The Research on Fuzzy Apportionment of Pump...

The Research on Fuzzy Apportionment of Pump Product Based on FMECA

Abstract:

Using the similar products’ FMECA conclusion, and structuring the products’ judgment matrix of each component and each risk assessment factor by applying T-FAHP method, then to determine the reliability index apportionment weights of each component taking designer’s demands, customer’s feedback and expert’s experience into consideration, it makes the conclusion agree with engineering practice. At last, the calculation of example proves the method is scientific and reasonable.

You might also be interested in these eBooks

Mechanical Engineering and Green Manufacturing II

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 155-156)

Pages:

1198-1202

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.155-156.1198

Citation:

Cite this paper

Online since:

February 2012

Authors:

Ming Wei Hou

Keywords:

FMECA Technology, Fuzzy Apportionment, Pump Product Reliability, T-FAHP Method

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Liu Tingxiao, Zheng Pengzhou, He Guowei, etc. Reliability design and analysis [M]. Beijing: national defense industry press, 1995, 1-9, 78-134.

Google Scholar

[2] Huang Hongzhong. The Fuzzy Method for the Reliability Apportionment of the Mechanical System [J]. Mechanical science and technology, 1996, 15 (2) : 182-186.

Google Scholar

[3] Liu Weixin. Mechanical reliability [M]. Beijing: tsinghua university press, (2003).

Google Scholar

[4] Yuan Jumei. Reliability Allocation and Optimization for Complex System Based on Particle Swarm Optimization [J]. Fire Control and Command Control, , 2011, 36 (1) : 90-93.

Google Scholar

[5] Zhou Haijing, Yujin. Failure modes, effects and criticality analysis and the fault tree analysis [M]. Beijing: aviation industry press, (2003).

Google Scholar

[6] Yao Min, Zhang Shen. Fuzzy consistent matrix and the application of soft science [J] System engineering, 1997, 15 (2) : 54-56.

Google Scholar

[7] Guo Jin, Guo Fengyi, Wang Zhiyong, Chen Zhonghua. Application of three-degree analytical hierarrchy process in fuzzy comprehensive judgement system for arc erosive performance of contact material[J]. Journal of Liaoning Technical University (Natural Science), 2008, Vol. 27, No. 4, pp: 548-551.

Google Scholar

[8] Li Wugang. The reliability distribution of double quality flywheel [J]. Mechanical manufacturing, 2010, 48(545): 31-33.

Google Scholar

[9] Kang Ying, Xue Lianqing. Application of improve fuzzy AHP method in comprehensive water price determination [J]. Water Saving irrigation, 2008, (1): 38-40.

Google Scholar

[10] Li Yong, Hu Xianghong, Qiao Jian. An improved fuzzy AHP method [J]. Journal of Northwest University (Natural Science Edition), 2005, 2(1): 11-12.

Google Scholar

[11] Chen Mingwu, Li Quanzhan, Xie Shaofeng, etc. The application of fuzzy AHP method in reliability distribution for overhead contact system[J]. China Railway, 2008, (7): 34-38.

Google Scholar

[12] Fang Jingmin, Wu Haijun, Qian Ping, etc. The application of failure mode, effect and criticality analysis (FMECA) in submersible pump [C]. The 2006 national mechanical reliability proceedings, pp: 133-137.

Google Scholar