G. Bittes et al., THE RELATIONSHIP BETWEEN INCLUSIONARY DEPOSITS AND THE WEAR OF CUTTING TOOLS, Journal of materials processing technology, 54(1-4), 1995, pp. 88-96
A method for attempting to understand various machinability phenomena
when cutting metal in the turning operation was explored by examining
both the surface and a transverse section of the crater zone of uncoat
ed tungsten-carbide tools when AISI 4140 steel tempered to 290 Brinell
hardness is machined. Four steels were used, representing four differ
ent levels of machinability due to their different inclusionary compos
itions. This study revealed the existence of a third body, consisting
mainly of sulphides the stability of which varies with the following t
wo main parameters: (i) the machining speed (and therefore the cutting
temperature); and (ii) the rheological property of these layers and i
n particular their calcium content. Therefore, the wear effect due to
the diffusion of iron into the tool's tungsten-carbide matrix depends
on the stability of the sulphides of inclusionary origin. The purpose
of this study is to identify, optimise, and possibly modify the inclus
ionary populations of steels that produce a stable third body on the s
urface vicinity of cutting tools.