论文信息 - Non-steady-state elastic–plastic behavior of metal forming (rolling) with a generalized friction law

Non-steady-state elastic–plastic behavior of metal forming (rolling) with a generalized friction law

Abstract An analytical and generalized friction law is formulated and a three-dimensional large-strain non-steady-state elastic–plastic finite element analysis has been performed for rolling process. The contact/friction problem at the interface between the workpiece and the rolls is treated rigorously by using this new friction law. The numerical results, including the evolutions of roll torque and roll forces, and the interfacial normal and shear stresses, are presented and discussed.

Youping Chen | Youping Chen | James D. Lee

[1] R. Steijn. Friction and wear of single crystals , 1964 .

[2] James D. Lee,et al. A large-strain elastic-plastic finite element analysis of rolling process , 1998 .

[3] Majid T. Manzari,et al. A Finite Element Approach to Transient Thermal Analysis of Work Rolls in Rolling Process , 2000 .

[4] Remn-Min Guo,et al. Two-dimensional transient thermal behavior of work rolls in rolling process , 1998 .

[5] Y. Tsuya. The anisotropy of the coefficient of friction and plastic deformation in copper single crystals , 1969 .

[6] Vlado A. Lubarda,et al. A Correct Definition of Elastic and Plastic Deformation and Its Computational Significance , 1981 .

[7] David Tabor,et al. Friction—The Present State of Our Understanding , 1981 .

[8] C. C. Wang,et al. A new representation theorem for isotropic functions: An answer to Professor G. F. Smith's criticism of my papers on representations for isotropic functions , 1970 .

[9] J. Wilks,et al. The resistance of diamond to abrasion , 1959 .

[10] F. P. Bowden,et al. The Friction and Lubrication of Solids , 1964 .

[11] D. Tabor,et al. The frictional anisotropy of diamond , 1981, Nature.