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Particle Impact Damage behaviors in silicon Carbide Under Gas Turbine Environments-Effect of Oxide Layer Due to Long-Term Oxidation-

세라믹 가스터빈 환경을 고려한 탄화규소의 입자충격 손상거동-장기간 산화에 따른 산화물층의 영향-


Abstract

To simulate strength reliability and durability of ceramic parts under gas turbine application environments, particle impact damage behaviors in silicon carbide oxidized at 1673 K and 1523 K for 200 hours in atmosphere were investigated. The long-term oxidation produced a slight increase in the static fracture strength. Particle impact caused a spalling of oxide layer. The patterns of spalling and damage induced were dependent upon the property and impact velocity of the particle. Especially, the difference in spalling behaviors induced could be explained by introducing the formation mechanism of lateral crack and elastic-plastic deformation behavior at impact sit. At the low impact velocity regions, the oxidized SiC showed a little increase in the residual strength due to the cushion effect of oxide layer, as compared with the as-received SiC without oxide layer.

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