Different degree of reduction and sliding phenomenon study for three-dimensional hot rolling with sandwich flat strip

Symmetric rolling of 3D sandwich flat strips with thermal-elastic–plastic coupled model was studied under the assumption of an elastic roller and the condideration of heat transfer. Aluminum–copper sandwich flat strips were used in this study. merical model of symmetric rolling for 3D sandwich flat strip with thermal-elastic–plastic coupled model was developed based on the large deformation–large strain theory, the update Lagrangian formulation and the incremental principle. Besides, flow stress was considered as the function of strain, strain rate and temperature. The theoretical model of finite element method containing the two-order strain rate formulation acted as the basis for determining the convergence of simulation results. ntact surface between the aluminum and copper for the sandwich flat strip was also discussed. First of all, the contact face between the aluminum and copper was assumed that it would be fixed without sliding. Symmetric hot rolling of the aluminum and copper sandwich flat strip was analyzed. A slide criterion was then introduced to study the shear stress states of the contact face between aluminum and copper of sandwich strip, which was used to compare the relation between the maximum shear stress and the yielding shear stress on the contact face. If the maximum shear stress of aluminum or copper is smaller than the yielding stress of aluminum or copper respectively, sliding does not occur on the contact face. On the contrary, the sliding may occur on the contact face between aluminum and copper. different degrees of reduction were simulated in this study to analyze the states of shear stress on the upper aluminum strip and lower copper strip close to the contact face. Finally, it finds that the sliding on the contact face between aluminum and copper may occur around certain degree of reduction. The average rolling force of the simulation result was compared with experimental data [8] to verify the simulation results.