There is an interest in industry in cost reduction. Tool wear
constitutes an important element in the cost of many metal
working processes, not only because of the cost of the tool,
but also because of the cost of machine downtime.
Saltbath nitriding of high speed steel tools adds only about 1%
to the cost of a finished tool, but has been found to confer
benefits considerably in excess of this over a range of cutting
conditions .
A series of cutting tests is described, during which cutting
forces and tool temperatures were recorded simultaneously using
microcomputer based instrumentation developed at the
Polytechnic as part of this study.
The shear mechanism for tools with a nose radius is
investigated, and methods for evaluating the primary shear
plane area are proposed and discussed. The variation in
primary shear plane area with chip flow angle is evaluated.
The method for predicting chip flow angle from tool geometry is
presented, and results from this analysis compared with
experimental data .
A method for predicting primary shear angle from tool geometry,
force measurements and workpiece material properties is
developed.
A number of methods for measuring tool temperature are
described . Temperature distributions obtained from finite
element heat transfer analysis are presented, and a mechanism
for the catastrophic failure of the toolnose is proposed.
A range of cutting conditions is described, over which the
performance of high speed steel cutting tools is enhaced by
saltbath nitriding.
Date of Award | 1989 |
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Original language | English |
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Awarding Institution | |
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THE NITRIDING OF HIGH SPEED STEEL CUTTING TOOLS
Crust, G. A. (Author). 1989
Student thesis: PhD