论文信息 - Residual Stress Modeling in Orthogonal Machining

Residual Stress Modeling in Orthogonal Machining

A predictive model for residual stresses in orthogonal cutting is presented. It uses process conditions as inputs and predicts surface and sub-surface residual stress profiles due to machining. The model formulation incorporates cutting force and cutting temperature predictions and utilizes those parameters to define the thermo-mechanical loading experienced by the workpiece. The stresses at the cutter edge hone and in the shear plane are considered in a rolling/sliding contact algorithm which admits kinematic hardening for non-proportional plasticity with subsequent stress relaxation to meet boundary conditions. Model predictions are compared to experimentally-measured residual stresses under various cutting conditions for validation.

S. Y. Liang | J.-C. Su | S. Liang | J. Su

[1] W. König,et al. Residual Stresses — Measurement and Causes in Machining Processes , 1982 .

[2] D. L. McDowell,et al. An approximate algorithm for elastic-plastic two-dimensional rolling/sliding contact , 1997 .

[3] R. Komanduri,et al. Thermal modeling of the metal cutting process — Part II: temperature rise distribution due to frictional heat source at the tool–chip interface , 2001 .

[4] M. C. Shaw,et al. Mechanics of Machining: An Analytical Approach to Assessing Machinability , 1989 .

[5] Fukuo Hashimoto,et al. Surface Integrity Generated by Precision Hard Turning , 1999 .

[6] Richard E. DeVor,et al. Machining-Induced Residual Stress: Experimentation and Modeling , 2000 .

[7] A. Dias,et al. Residual stress analysis in orthogonal machining of standard and resulfurized AISI 316L steels , 1999 .

[8] T. I. El-Wardany,et al. Modelling the Effects of Flank Wear Land and Chip Formation on Residual Stresses , 2004 .

[9] Ranga Komanduri,et al. Thermal modeling of the metal cutting process: Part I — Temperature rise distribution due to shear plane heat source , 2000 .