A study on the calculation method of wear of an automatic tensioner
WAN Lixiang1, YU Jie1, SUN Yi2, SHANGGUAN Wenbin2
1.School of Mechanical Engineering, Southwest Jiaotong University, Chengdu 610031, China;
2.School of Mechanical and Automotive Engineering, South China University of Technology, Guangzhou 510640, China
Abstract:This paper presents a calculation method based on Archard wear model and finite element analysis (FEA), with the purpose of analyzing and predicting the wear of tensioner damping part. In this paper, the wear simulation model of the tensioner is established in the ABAQUS software, the UMESHMOTION user subroutine is called to calculate the wear depth of the tensioner damping parts, and the method for determining the wear coefficient is given. In the wear simulation process, the arbitary Lagrangian eulaerian(ALE) adaptive grid is used to optimize the grid quality of the damping component. Finally, a wear durability test of the tensioner was carried out to verify the correctness of the calculation method.
万里翔1,喻杰1,孙毅2,上官文斌2. 自动张紧器的磨损计算方法的研究[J]. 振动与冲击, 2022, 41(24): 293-297.
WAN Lixiang1, YU Jie1, SUN Yi2, SHANGGUAN Wenbin2. A study on the calculation method of wear of an automatic tensioner. JOURNAL OF VIBRATION AND SHOCK, 2022, 41(24): 293-297.
[1] martínez F.j, Canales M, Izquierdo S, et al. Finite element implementation and validation of wear modelling in sliding[J]. Wear, 2012, 284-285: 52-64.
[2] Shen X J, Liu Y F, Cao L, et al. Numerical Simulation of Sliding Wear for Self-lubricating Spherical Plain Bearings[J]. Materials Research and Technology, 2012, 1(1): 8-12.
[3] Rezaei A, Paepegema W V, et al. Adaptive fnite element simulation of wear evolution in radialsliding bearings[J]. Wear, 2012, 296(1-2): 660-671.
[4] BortoletoE M, Rovani A C, Seriacopi V, et al. Experimental and numerical analysis of dry contact in the pin on disc test[J]. Wear, 2013, 301(1-2):19-26.
[5] Ashraf M. A, Ahmed R, Ali O, et al. Finite Element Modeling of Sliding Wear in a Composite Alloy Using a Free-Mesh[J]. ASME Journal of Tribology, 2015, 137(3) : 031605 (15 pages).
[6] Israr Ud Din, Panier S, Hao P, et al. Finite element modeling of indentation and adhesive wear in sliding of carbon fiber reinforced thermoplastic polymer against metallic counterpart[J]. Tribology International, 2019,135 : 200-212.
[7] 宿月文,陈 渭,朱爱斌,等. 滑动磨损过程有限元分析及销磨损预测[J]. 中国机械工程, 2009, 20(13): 1573-1576, 1581.
SU Yuewen , CHEN Wei, ZHU Aibin. Simulation of Sliding Wear Based on Finite Element Method and Its Application to Wear Prediction of Link Pivot Joint[J]. China Mechanical Engineering, 2009, 20(13): 1573-1576, 1581.
[8] 李聪波,何 娇,杜彦斌, 等. 基于Archard模型的机床导轨磨损模型及有限元分析[J]. 机械工程学报, 2016, 52(15): 107-114.
LI Congbo, HE Jiao, DU Yanbin, et al. Archard Model Based Machine Tool Wear Model andFinite Element Analysis[J]. Journal of Mechanical Engineering, 2016, 52(15): 107-114.
[9] 郭三本,李广龙,李利平,等.自动张紧器迟滞特性计算与试验分析[J]. 振动与冲击, 2020, 39(24): 278-286.
GUO Sanben,LI Guanglong,LI Liping , et al. Calculation and experimental analysis of the hysteretic behavior of an automatic tensioner[J]. Journal of Vibration and Shock, 2020, 39(24): 278-286.
[10] ASTM D3702-1994(2009). Standard Test Method for Wear Rate and Coefficient of Friction of Materials in Self-lubricated Rubbing Contact Using a Thrust Washer Testing Machine [S]. ASTM International, 2009.
[11] Gaugel S, Sripathy P, Haeger A, et al. A comparative study on tool wear and laminate damage in drilling of carbon-fiber reinforced polymers (CFRP)[J]. Composite Structures, 2016, 155:173-183.
[12] Mukras S, Kim N H, Sawyer W. G, et al. Numerical integration schemes and parallel computation for wear prediction using finite element method, Wear, 2009, 266(7-8):822-831.