Ultra–Precision Turning of Electroless–Nickel: Effects of crystal orientation and origin of diamond tools

Pramanik, Alokesh; Soon, Neo; Rahman, Mustafizure; Li, X; Sawa, M; Meada, Y

doi:10.1007/s00170-008-1748-2

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Authors

Pramanik, Alokesh

Soon, Neo

Rahman, Mustafizure

Li, X

Sawa, M

Meada, Y

Date

2009

Type

Journal Article

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Citation

Pramanik, A. and Neo, K. S. and Rahman, M. and Li, X. P. and Sawa, M and Meada, Y. 2009. Ultra–Precision Turning of Electroless–Nickel: Effects of crystal orientation and origin of diamond tools. International Journal of Advanced Manufacturing Technology. 43 (7-8): pp. 681-689.

Source Title

International Journal of Advanced Manufacturing Technology

Abstract

This paper deals with (i) the performance of natural and artificial diamond tools and (ii) the effects of crystal orientations at rake face of diamond tool for long distance (>200 km) ultraprecision machining of electroless nickel. The criteria for cutting performance of the diamond tool include flank wear, crater wear, workpiece surface finish, and cutting forces. Experimental results show that the natural diamond tool has superior performance compared to the artificial one as it experienced lower cutting forces and lower flank and crater wears. It was also found that the cutting tool with {110} crystal orientation at rake face performs better than the tool with {100} crystal orientation in terms of amount of wear, surface finish, and cutting forces.