Paper Title:
Experiment of Temperature Field for High Speed Orthogonal Turning
  Abstract

An experimental system used for temperature measurement is designed by the K-type thermocouple thermometry to achieve a direct measurement of cutting temperature in high speed orthogonal turning. The general regularity of temperature distribution is concluded, and the corresponding influences of cutting speed and cutting depth on the maximum temperature value are discussed in detail. Experimental data and simulating results are comparative analyzed to demonstrate the feasibility and correctness of Finite Element Method (FEM) model simulation and analytical solution. The verified model of temperature field can be applied to develop an effective non-contact soft-sensing method for high speed cutting temperature.

  Info
Periodical
Chapter
Chapter 4: Fluid Mechanics and Thermodynamics
Edited by
Huixuan Zhang, Ye Han, Fuxiao Chen and Jiuba Wen
Pages
594-597
DOI
10.4028/www.scientific.net/AMM.117-119.594
Citation
M. L. Wang, Y. Feng, X. X. Li, B. S. Wang, "Experiment of Temperature Field for High Speed Orthogonal Turning", Applied Mechanics and Materials, Vols. 117-119, pp. 594-597, 2012
Online since
October 2011
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Price
$32.00
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