A model for predicting cutting tool temperatures under transient conditions is presented. The model of Stephenson et al.  is extended to include the initial transient response to the tool temperature and nonuniform heat flux distributions. The main goal in this paper is to be able to accurately predict the initial transient tool temperature response, or temperatures in interrupted cutting for cases where the cutting time is short. A method to predict the true transient energy partitioning instead of quasi-steady energy partitioning (Stephenson et al., ), without seeking the full numerical analysis, has been developed. In this paper, the transient energy partitioning is obtained through a fixed-point iteration process by modifying the quasi-steady energy partitioning method presented by Loewen and Shaw . The predicted transient tool temperatures are compared quantitatively to the experimental data. Utilizing a semi-empirical correlation for heat flux distribution along the tool-chip interface, the temperature distribution is calculated and compared qualitatively to existing experimental data.
An Improved Transient Model of Tool Temperatures in Metal Cutting
Contributed by the Manufacturing Engineering Division for publication in the JOURNAL OF MANUFACTURING SCIENCE AND ENGINEERING. Manuscript received January 1999; revised April 2000. Associate Editor: S. G. Kapoor.
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Jen, T., and Anagonye, A. U. (April 1, 2000). "An Improved Transient Model of Tool Temperatures in Metal Cutting ." ASME. J. Manuf. Sci. Eng. February 2001; 123(1): 30–37. https://doi.org/10.1115/1.1334865
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