Investigation of thermal shock in a high-temperature refractory ceramic: Afracture mechanics approach

The results of a study on the thermal shock behavior of a high-temperature refractory ceramic that is used as a furnace liner in the melting of steels are presented in this paper. The experimental studies show that thermal sh ock damage initiates by edge cracking after the first shock cycle. Subseque nt subcritical crack growth occurs by the incremental extension of dominant cracks until catastrophic failure occurs. The observations of the crack pr ofiles also reveal the formation of viscoelastic bridges that promote crack -tip shielding/toughening via crack bridging. Following a brief discussion of the respective mechanisms of fracture and thermal shock damage at differ ent temperatures and temperature ranges, the implications of the results ar e discussed for refractory ceramics that are toughened by viscoelastic crac k bridging.