T. El-raghy et al., Processing and mechanical properties of Ti3SiC2: II, effect of grain size and deformation temperature, J AM CERAM, 82(10), 1999, pp. 2855-2860
In this article, the second part of a two-part study, we report on the mech
anical behavior of Ti3SiC2, In particular, we have evaluated the mechanical
response of fine-grained (3-5 mu m) Ti3SiC2 in simple compression and flex
ure tests, and we have compared the results with those of coarse-grained (1
00-200 mu m) Ti3SiC2, These tests have been conducted in the 25 degrees-130
0 degrees C temperature range. At ambient temperature, the fine- and coarse
-grained microstructures exhibit excellent damage-tolerant properties. In b
oth cases, failure is brittle up to similar to 1200 degrees C, At 1300 degr
ees C, both microstructures exhibit plastic deformation (>20%) in flexure a
nd compression. The fine-grained material exhibits higher strength compared
with the coarse-grained material at all temperatures. Although the coarse-
grained material is not susceptible to thermal shock (up to 1400 degrees C)
, the fine-grained material thermally shocks gradually between 750 degrees
and 1000 degrees C, The results presented herein provide evidence for two i
mportant aspects of the mechanical behavior of Ti3SiC2: (i) inelastic defor
mation entails basal slip and damage formation in the form of voids, grain-
boundary cracks, kinking, and delamination of individual grains, and (ii) t
he initiation of damage does not result in catastrophic failure, because Ti
3SiC2 can confine the spatial extent of the damage.