Modeling of contact surface morphology and dust particles by using finite element method

被引:11
|
作者
Wang Dong [1 ]
Xu Liang-jun [1 ]
机构
[1] Beijing Univ Posts & Telecommun, Res Lab Elect Contacts, Beijing 100876, Peoples R China
来源
JOURNAL OF ZHEJIANG UNIVERSITY-SCIENCE A | 2007年 / 8卷 / 03期
关键词
dust particles; surface morphology; finite element method (FEM); hazardous size;
D O I
10.1631/jzus.2007.A0403
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
The effect of dust particles on electric contacts and a hazardous size range of hard dust particles using a rigid model were discussed before. As further research, elastic-plastic model of finite element analysis was established in this work, which is closer to real condition. In this work, the behavior of large size and small size particles, and the influence of particles hardness were investigated. The calculating result of small-size particles presents a general hazardous size coefficient for different contact surface morphology; for large-size particles, it presents a hazardous size coefficient for complicated composition of the dust. And the effect of the dust shape is also discussed.
引用
收藏
页码:403 / 407
页数:5
相关论文
共 50 条
  • [1] Modeling of contact surface morphology and dust particles by using finite element method
    Dong Wang
    Liang-jun Xu
    Journal of Zhejiang University-SCIENCE A, 2007, 8 : 403 - 407
  • [2] Modeling of contact surface morphology and dust particles by using finite element method
    Wang, Dong
    Xu, Liangjun
    Proceedings of the 2nd International Conference on Reliability of Electrical Products and Electrical Contacts, 2007, : 163 - 167
  • [3] Modeling of contact surface morphology and dust particles by using finite element method附视频
    WANG Dong XU Liangjun Research Lab of Electric Contacts Beijing University of Post Telecommunications Beijing China
    Journal of Zhejiang University(Science A:An International Applied Physics & Engineering Journal), 2007, (03) : 403 - 407
  • [4] Contact modeling using step boundary method for immersed boundary finite element method
    Nittala, Srikar S.
    Kumar, Ashok V.
    COMPUTATIONAL MECHANICS, 2024, : 1061 - 1079
  • [5] Numerical modeling of contact problems with the finite element method utilizing a B-Spline surface for contact surface smoothing
    Vasconcelos Santos, Daniel Barbedo
    Bandeira, Alex Alves
    LATIN AMERICAN JOURNAL OF SOLIDS AND STRUCTURES, 2018, 15 (08):
  • [6] Modeling Free Surface Flows Using Stabilized Finite Element Method
    Garg, Deepak
    Longo, Antonella
    Papale, Paolo
    MATHEMATICAL PROBLEMS IN ENGINEERING, 2018, 2018
  • [7] A finite element method for contact using a third medium
    Wriggers, P.
    Schroeder, J.
    Schwarz, A.
    COMPUTATIONAL MECHANICS, 2013, 52 (04) : 837 - 847
  • [8] A finite element method for contact using a third medium
    P. Wriggers
    J. Schröder
    A. Schwarz
    Computational Mechanics, 2013, 52 : 837 - 847
  • [9] Finite element modeling of a moving load using contact conditions
    Gridnev, Sergey
    Ravodin, Ilya
    XXVII R-S-P SEMINAR, THEORETICAL FOUNDATION OF CIVIL ENGINEERING (27RSP) (TFOCE 2018), 2018, 196
  • [10] Finite element modeling of adhesive contact using molecular potential
    Cho, SS
    Park, S
    TRIBOLOGY INTERNATIONAL, 2004, 37 (09) : 763 - 769
12345