FEM Simulation Analysis of Cross Wedge Rolling Process

Bin Li

doi:10.4028/www.scientific.net/AMR.381.72

Paper Titles

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Application of Taguchi Method in Vibration Tapping Process
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Equivalent Conversion Calculation of Straight Bevel Gear’s Mesh Stiffness
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FEM Simulation Analysis of Cross Wedge Rolling Process
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Analysis of Radial Rigidity about the Hydraulic Expansion Toolholder
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Optimized Face Gear and its Bending Stress Analysis
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Modeling Analysis of Micro-Burr Formation
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The Performance Research of Automobile Disc Brake Based on Finite Element Technology
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FEM Simulation Analysis of Cross Wedge Rolling Process

Abstract:

This paper investigates the interfacial slip between the forming tool and workpiece in a relatively new metal forming process, cross-wedge rolling. Based on the finite elements method, three-dimensional mechanical model of cross wedge rolling process has been developed. Examples of numerical simulation for strain, stress distributions and rolling load components have been included. The main advantages of the finite element method are: the capability of obtaining detailed solutions of the mechanics in a deforming body, namely, stresses, shapes, strains or contact pressure distributions; and the computer codes, can be used for a large variety of problems by simply changing the input data.