An advanced Al2O3-based ceramic tool material with carbon additive has been
fabricated with hot pressing technique. Microstructures are analyzed with
scanning electron microscopy (SEM) and transmission electron microscopy (TE
M). Experiments show that this kind of ceramic tool material can achieve a
fracture toughness of 5.89 MPa m(1/2) which is approximately 20% higher tha
n that of the corresponding ceramic material containing no carbon additive,
while the hardness and the flexural strength do not decrease much. It is f
ound that microcracking, crack deflection, crack branching and track bridgi
ng may contribute dominantly to the increase in the fracture toughness of t
he carbon containing Al2O3/TiC ceramic tool material. Therefore, it can get
higher fracture resistance while remaining good wear resistance in continu
ous and interrupted machining of hardened carbon steel. Under various face
milling conditions, the increment of the fracture resistance of the carbon
toughened ceramic tool material ranges from 17.5 to 30.2%. Wear mechanisms
are mainly adhesion wear and abrasive wear, and thermal shock induced crack
is one of the main reasons for the ceramic tool fracture when machining at
high speed. (C) 2001 Published by Elsevier Science B.V.