Research on FMEA Analysis Technology Based on Meta-action for Numerical Control Machine Tool
Abstract
At present, the FMEA (Failure Mode and Effect Analysis) for electromechanical products is cumbersome, time-consuming, and error-prone. The analysis objects of this method also cannot reflect the characteristics of “motion determines function” in electromechanical products. In order to address such problems, firstly, according to the decomposition idea of “function-motion-action”,the function of electromechanical products is decomposed into the most basic action (that is, meta-action); secondly, the characteristics of meta-action are analyzed, and the rationality of taking meta-action as the research object of electromechanical products FMEA is discussed; thirdly, based on those above, a M-FMEA (Meta-action Failure Mode and Effect Analysis) method for electromechanical products is proposed; finally, traditional methods and the proposed method are compared in rationality, applicability and simplicity, which highlights the advantages of the proposed method. A numerical control machine tool made in China is taken as an example, the applicability and effectiveness of the proposed method are verified, and the accuracy and efficiency of failure analysis for electromechanical products are also improved.
Keywords: failure, meta-action, machine tool, decomposition
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YAO C J, WEI L H, WANG H L. Reliability analysis of RV reducer on FTA and FMEA [J]. Modern Manufacturing Engineering, 2018 (1) : 136—140.(In Chinese)
SUN S G, SHEN G X, ZHANG Y Z, et al. Failure analysis of machining center based on ISM and FMECA[J]. Journal of Hunan University (Natural Sciences), 2015, 42 (8): 47—52.(In Chinese)
YANG P L, HOU Y, XU K, et al. Probabilistic failure modes and effects analysis for electromechanical systems based on formal method [J]. Journal of Xi'an Jiaotong University, 2018, 52 (1): 1—7.(In Chinese)
FENG F Z, LUO J H, LIU Y H, et al. A FMEA analysis method based on function-structure-failure model [J]. Journal of Vibration, Measurement & Diagnosis, 2016, 36 (3): 413—418.(In Chinese)
YANG P L, XU K, XUE C C, et al. Study on FMEA for electromechanical systems based on model checking [J]. Journal of Mechanical Engineering, 2016, 52 (16):162—168.(In Chinese)
EPPINGER S D, WHITNEY D E, SMITH R P, et al. Organizing the tasks in complex design projects [C] // Proceedings of the Conference on Design Theory and Methodology. New York: ASME, 1990, 27: 39—46.
WANG Y, LIU J H. Assembly unit partitioning for collaborative assembly planning[J]. Journal of Mechanical Engineering, 2009, 45 (10): 172—179.(In Chinese)
STONE R B, WOOD K L, CRAWFORD R H. A heuristic methodfor identifying modules for product architectures[J]. Design Studies, 2000, 21 (1): 5—31.
YANG Y, LI Y Y, LI F, et al. Task decomposition and resources allocation of product collaboration innovative design [J]. Journal of Chongqing University, 2014, 37 (1): 31—38.(In Chinese)
ZHANG H. Research of reliability analysis and control technology of CN machine based on element action [D]. Chongqing: College of Mechanical Engineering, Chongqing University, 2012: 33—38.(In Chinese)
LI D Y, LI M Q, ZHANG G B, et al. Mechanism analysis of deviation sourcing and propagation for meta -action assembly unit[J]. Journal of Mechanical Engineering, 2015, 51 (17): 146—155.(In Chinese)
LI D Y, ZHANG G B, LI M, et al. Assembly reliability modeling technology based on meta-action [C] // Procedia CIRP. Hangzhou: Zhejiang University, 2015, 27: 207—215.
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