EFFECT OF SINTERING ATMOSPHERE ON SURFACE AND
Paper i proceeding, 2012
The effect of sintering atmosphere on high-temperature isothermal oxidation was investigated for
molybdenum disilicide composites of MoSi2+15 vol% ZrO2 pressure-less sintered in Ar and H2. XRD and SEM
analysis revealed that the outermost surface of as-sintered composite consists of a (Mo, Zr)5Si3 layer, and the
surface microstructure depended on the sintering gases. Isothermal and thermal cycling oxidation tests were
performed at 1400°C for 1000 hours and at 1200°C for 1000 cycles in air, respectively. The as-sintered
composites experienced a severe weight loss at initial oxidation, and protective scales were formed after 24 h
and 300 h for H2 and Ar sintered composites, respectively. In contrast, if the as-sintered surface was removed
by grinding the material exhibited parabolic response with a low parabolic oxidation rate constant and
excellent thermal shock property comparable to monolithic molybdenum disilicide. This work evidenced that
the inherent oxidation resistance and self-curing property of MoSi2+15 vol% ZrO2 composite, and a strong
influence of as-sintered surface microstructure of the composite on high temperature oxidation behaviour.
high temperature application
molybdenum disilicide
MoSi2-ZrO2 composite