论文信息 - Creek effects on the spallation of an alumina layer from a NiCrA1Y coating

Creek effects on the spallation of an alumina layer from a NiCrA1Y coating

Abstract A finite-element analysis has been performed of alumina spallation by wedge cracking from a flat Nil6Cr6A1Y coating substrate during cooling from 1100°C. The analysis allowed for creep deformation within both the coating and oxide but it was found that only creep within the coating influenced the growth of the interfacial wedge crack by relaxing stresses at the crack tip. As a result, crack growth was suppressed during the early stages of cooling. Computed values of the critical temperature drop to cause spallation are presented for various cooling rates and values of the coefficient of thermal expansion of the coating. The results show that the effective fracture energy for growth of the interfacial crack in the presence of creep is some 1–2 orders of magnitude greater than previously determined values for elastic fracture of the oxide and demonstrate the important role of coating creep. These results are used to produce a first spallation map for this system.

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