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International Journal of Machine Tools and Manufacture
Volume 35, Issue 10 , October 1995, Pages 1397-1409

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doi:10.1016/0890-6955(95)93590-3    How to Cite or Link Using DOI (Opens New Window)  
Copyright © 1995 Published by Elsevier Science Ltd.

Applied mechanics in grinding—IV. The mechanism of grinding induced phase transformation

Liangchi Zhanga and Mofid Mahdia

a Centre for Advanced Materials Technology, Department of Mechanical and Mechatronic Engineering, The University of Sydney, NSW 2006, Australia

Received 22 September 1994.  Available online 23 February 2000.


Abstract

One of the most important problems in high precision grinding is the optimisation of the surface residual stress distribution of ground components. It has been realised that the heat generated in the grinding zone plays a central role in the phase transformation of workmaterials that would alter the residual stress formation. The purpose of this paper was to reveal the mechanism of phase transformation of workmaterials induced by grinding. The finite element method was used to simulate the grinding processes. The heat source generated during grinding was considered as a moving heat flux with a triangular profile. Effects of table speed, heat flux distribution, thermal properties of workmaterials and convective features of coolant were discussed in detail. It was found that an optimal combination of grinding conditions could minimise the depth of phase transformation. The results of this paper also offered essential information for the mechanism exploration of residual stresses in ground components.



This Document
Abstract
Abstract + References
PDF (688 K)
Actions
E-mail Article
International Journal of Machine Tools and Manufacture
Volume 35, Issue 10 , October 1995, Pages 1397-1409


 
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