Abstract
This paper aims to evaluate the sustainability performance of machining operation of through-hardening steel, AISI 52100, taking into account the impact of the material removal process in its various aspects. Experiments were performed for dry and cryogenic cutting conditions using chamfered cubic boron nitride (CBN) tool inserts at varying cutting conditions (cutting speed and feed rate). Cutting forces, mechanical power, tool wear, white layer thickness, surface roughness and residual stresses were investigated in order to evaluate the effects of extreme in-process cooling on the machined surface. The results indicate that cryogenic cooling has the potential to be used for surface integrity enhancement for improved product life and more sustainable functional performance. © 2012 by JSME.
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Rotella, G., Umbrello, D., Dillon, O. W., & Jawahir, I. S. (2012). Evaluation of process performance for sustainable hard machining. In Journal of Advanced Mechanical Design, Systems and Manufacturing (Vol. 6, pp. 989–998). Japan Society of Mechanical Engineers. https://doi.org/10.1299/jamdsm.6.989
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