An Analytical Predictive Model and Experimental Validation for Machining with Grooved Tools Incorporating the Effects of Strains, Strain-rates, and Temperatures |
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| Authors: | N. FangI.S. Jawahir |
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| Affiliation: | a Department of Mechanical and Aerospace Engineering Utah State University, Logan, Utah, USA
b Center for Robotics and Manufacturing Systems, Department of Mechanical Engineering University of Kentucky, Lexington, Kentucky, USA |
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| Abstract: | By effectively integrating a recently developed universal slip-line model with Oxley's predictive machining theory, a new analytical predictive model for machining with restricted contact grooved tools has been developed and presented in this paper. A computational flow chart is provided to illustrate the method of integration. The cutting forces are predicted for varying flow stress properties to include the effects of strains, strain-rates, and temperatures. Extensive cutting tests involving the use of three groups of chip-grooves have been conducted to validate the new method. An encouraging good agreement has been found between predicted and experimental results. |
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| Keywords: | Machining Chip formation Cutting force prediction |
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