论文信息 - An analytical model on twisting deformation of rod extrusion through conical die with rotating container

An analytical model on twisting deformation of rod extrusion through conical die with rotating container

Abstract Reducing energy consumption and improving material properties of the extrusion processing are important problems to be solved. The application of torque on the container can transform the friction distribution on the outside surface of billet during the extrusion, and a component of friction force need to be overcame. Due to the large contact area between container and billet, the effect and significance of this method for load reducing appears. In this paper, on the basis of a reasonable assumption to velocity field in the process of rotating container, the twisting length of the billet inside the stationary container was derived by the use of the upper-bound method. The comparison result indicates, when the rotating speed of container lies in a specific range (0–1 rad/s), the average extrusion pressure applied by the punch decreases apparently with the friction increasing. Unlike the traditional extrusion which usually decreases the friction factor in order to improve the properties of the material. Although the relative slippage inevitably occurred between the billet and the container, the optimum results could be obtained by optimization of the slippage parameters.

[1] M. Barnett,et al. Forward extrusion through steadily rotating conical dies. Part I: experiments , 2004 .

[2] Experimental and theoretical investigation of compression of a cylinder using a rotating platen , 2003 .

[3] Lorenzo Dozio,et al. Free in-plane vibration analysis of rectangular plates with arbitrary elastic boundaries , 2010 .

[4] Yan Beygelzimer,et al. Useful properties of twist extrusion , 2009 .

[5] J. C. Huang,et al. High Strain Rate and/or Low Temperature Superplasticity in AZ31 Mg Alloys Processed by Simple High-Ratio Extrusion Methods , 2002 .

[6] M. Mabuchi,et al. Enhancement of tensile ductility of magnesium alloy produced by torsion extrusion , 2008 .

[7] Z. Mroz,et al. An upper-bound analysis of axisymmetric extrusion assisted by cyclic torsion , 2008 .

[8] A. Matuszak,et al. New methods of aluminium and aluminium-alloy chips recycling , 2000 .

[9] M. Barnett,et al. Forward extrusion through steadily rotating conical dies. Part II: theoretical analysis , 2004 .

[10] M. H. Paydar,et al. Study on the feasibility of the torsion extrusion (TE) process as a severe plastic deformation method for consolidation of Al powder , 2010 .

[12] S. Timoshenko,et al. Theory of elasticity , 1975 .

[13] L. Kong,et al. Material properties under drawing and extrusion with cyclic torsion , 2001 .