期刊
MECHANICAL SYSTEMS AND SIGNAL PROCESSING
卷 169, 期 -, 页码 -出版社
ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ymssp.2021.108748
关键词
Wear; Joint clearance; Kinematic reliability; Motion accuracy; Planar mechanism
资金
- National Natural Science Foundation of China [52105027]
This study conducts kinematic reliability analysis of high-precision planar mechanisms experiencing non-uniform wear. A wear prediction method based on Archard's wear model is presented, and the maximum entropy model and numerical integration are used to calculate kinematic reliability. A Monte Carlo simulation based method is developed for reference solution calculation.
Joint clearance significantly influences the motion accuracy of a mechanism. Most of the existing studies assumed that the clearance is regular with constant size. The effect of irregular joint clearance due to wear on the kinematic accuracy is ignored. Hence, this study conducts kinematic reliability analysis of high-precision planar mechanisms experiencing non-uniform wear. Firstly, under the framework of multi-body dynamics, an efficient wear prediction method based on Archard's wear model is presented for parameterized description of the clearance boundary. Secondly, fractional moments of the motion output considering the uncertainties of driving ac-tuators, link dimensions and non-uniform joint clearance are derived with the dimension reduction method. On this basis, the maximum entropy model constrained by fractional moments is employed to approximate the distribution of the motion output. Then the kinematic reliability is accordingly calculated using the numerical integral. Meanwhile, a Monte Carlo simulation (MCS) based method is developed for kinematic reliability analysis by virtue of slicing sampling technique to provide a reference solution. Finally, experimental testing of a slider-crank mech-anism is presented to verify the wear prediction method. The slider-crank mechanism is also used to demonstrate the effectiveness of the proposed kinematic reliability evaluation method.
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