Cutting Force Modeling in Precision Turning 3J33 Alloy for Tool with Nose Radius

Yuan Sheng Zhai; Yu Wang; Ying Chun Liang

doi:10.4028/www.scientific.net/AMR.69-70.167

Paper Titles

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Material Removal Mechanism in Vibration-Assisted Finishing
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Predicted Rake Face Wear of PCBN Cutting Tools in High-Speed Precision Hard Cutting
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Cutting Force Modeling in Precision Turning 3J33 Alloy for Tool with Nose Radius
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Experimental Research of Micro Reversible Electrical Discharge Machining
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Masked and Unmasked Machining of Glass by Micro Abrasive Jet
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Cutting Force Modeling in Precision Turning 3J33 Alloy for Tool with Nose Radius

Abstract:

Based on experimental results, a predictive model with certain constraints of cutting parameters (feed rate and depth of cut) and nose radius for cutting forces is solved in precision turning 3J33 alloy. The proposed model is adequate with F-ratio test and multiple correlation coefficient of it. Regression analysis shows that depth of cut and feed rate influence the principal cutting force significantly. The goal of this study is to predict cutting forces under certain constraints of cutting parameters and nose radius.