The fatigue behaviour of fine grained Al2O3 and ZrO2 toughened Al2O3 (ZTA)
compositions with 15 vol% ZrO2 (3 mol% Y2O3 stabilized: 3Y-TZP) have been i
nvestigated by using three different techniques, Primarily l-point bending
load was employed to generate tension-tension fatigue data under both stati
c and cyclic conditions, The results clear-ly showed that the materials wer
e susceptible to both the static and cyclic fatigue and the time to failure
under cyclic loading was considerably shorter than the equivalent static l
oads. The repeated indentations at the same spot with varying loads showed
a typical fatigue behaviour. In addition, both the materials were subjected
to the repeated impact cycles at varying subcritical loads simulating impa
ct fatigue, In all the cases typical fatigue curves were obtained having a
progressive endurance at subcritical loads having an endurance limit, The f
atigue behaviour of Al2O3 was much improved by the addition of 15 vol% 3Y-T
ZP. having micro-plasticity contributing towards the cyclic fatigue phenome
na of these materials.