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Tribology Transactions Volume 60, 2017 - Issue 5
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Articles

Linear Complementarity Framework for 3D Steady-State Rolling Contact Problems Including Creepages with Isotropic and Anisotropic Friction for Circular Hertzian Contact

Yinhu XiTheory of Lubrication and Bearing Institute, Key Laboratory of Education Ministry for Modern Design and Rotor–Bearing System, Xi'an Jiaotong University, Xi'an, P. R. China;Department of Engineering Sciences and Mathematics, Division of Machine Elements, Luleå University of Technology, Luleå, SwedenCorrespondence[email protected]
,
Andreas AlmqvistDepartment of Engineering Sciences and Mathematics, Division of Machine Elements, Luleå University of Technology, Luleå, Sweden
,
Yijun ShiDepartment of Engineering Sciences and Mathematics, Division of Machine Elements, Luleå University of Technology, Luleå, Sweden
,
Junhong MaoTheory of Lubrication and Bearing Institute, Key Laboratory of Education Ministry for Modern Design and Rotor–Bearing System, Xi'an Jiaotong University, Xi'an, P. R. China
&
Roland LarssonDepartment of Engineering Sciences and Mathematics, Division of Machine Elements, Luleå University of Technology, Luleå, SwedenORCID Iconhttp://orcid.org/0000-0001-9110-2819
ORCID Icon
Pages 832-844 | Received 15 Nov 2015, Accepted 21 Jul 2016, Published online: 04 Nov 2016
 
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ABSTRACT

In this article, the problem of 3D steady-state rolling contacts with dry friction for circular Hertzian contacts is formulated mathematically as a linear complementarity problem (LCP). The complementarity variables are the traction and the relative slip of contact regions, in which a polyhedral friction law is employed. The present work uses the general expressions describing the surface deformations due to uniform traction over a rectangular area on an elastic half-space to derive the influence coefficient matrix for rolling contact problems. Three possible creepage types—that is, longitudinal, lateral, and spin creepage—are considered in this work. Firstly, the numerical results are verified against the existing numerical solutions and good agreement has been found. Secondly, the anisotropic friction is studied by the verified approach. Some numerical examples are provided to illustrate the current LCP method for both isotropic and anisotropic friction in which the combined effects of the three kinds of creepage on the traction distribution are shown.

Funding

The first author acknowledges support from the China Scholarship Council (No. 201406280045).

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