The Numerical Simulation Technology in the Cutting Process of Alloy Steel AISI4340

Shi Gang Wang; Yue Qiang Yu; Fu Sheng Gao; Xi Bing Li

doi:10.4028/www.scientific.net/AMR.500.180

Paper Titles

Finite Element Analysis of Surface Residual Stress of Titanium Alloy TC4 Based on High Speed Cutting
p.157

Research on Cutting-Tools Whole Life Cycle Management System
p.163

A Comparison of Dry and Wet Machining of SiC Particle-Reinforced Aluminum Metal Matrix Composites
p.168

The Design and Finite Element Analysis of the Tool in Turning the Inner Ring Groove of a Large Cylindrical Shell
p.174

The Numerical Simulation Technology in the Cutting Process of Alloy Steel AISI4340
p.180

High Speed Face Milling Cutters Dynamic Response with Deformation
p.186

Influence Characteristics of Cutting-Contact Stress on the Wear of Milling Cutter in High Speed Ball-End Milling Hardened Steel
p.192

Model of Intrinsic/Extrinsic about the Safety for High Speed Milling Tools on Mesoscale
p.198

Experimental Study on Cutting Tool Sticking Failure for Stainless Steel lCrl8Ni9Ti
p.205

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The Numerical Simulation Technology in the Cutting Process of Alloy Steel AISI4340

Abstract:

Using the finite element analysis software ABAQUS, simulation experiments on physical nonlinearity, geometric nonlinear, nonlinear finite element, elastic-plastic in the cutting process are conducted, which realize the separation of chips and working piece combined with material failure criterion, shear failure, adaptive grid technique in ABAQUS. Meanwhile, the stress field, strain and temperature field and cutting force in the cutting simulation are obtained consistent with cutting theory.