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In high temperature oxidation environment, the oxidation reaction will induce variations in material parameters, such as Young’s modulus, thermal expansion coefficient(CTE),coefficient of oxygen diffusion(COD), etc. The oxidation-induced material parameter variations should be considered in high temperature mechanical analysis. In this paper, high temperature oxidation behavior of an oxide film/metal substrate system was investigated through a modified phase field approach. The oxidative stress and oxidation weight gain induced by high temperature oxidation were studied. Effects of Young’s modulus, COD and CTE on oxidative stress in the oxide film were studied particularly. The simulation results showed that a better agreement with the experimental results could be obtained when considering the oxidation-induced material parameter variations in the high temperature mechanical analysis of oxide film/metal substrate system. The simulation results demonstrated that oxidative stress and oxidation weight gain were more sensitive to the variation of Young’s modulus than to the variations of COD and CTE.
In high temperature oxidation environment, the oxidation reaction will induce variations in material parameters, such as Young’s modulus, thermal expansion coefficient (CTE), coefficient of oxygen diffusion (COD), etc. The oxidation-induced material parameter variations should be considered high temperature mechanical analysis. In this paper, high temperature oxidation behavior of an oxide film / metal substrate system was investigated through an modified phase field approach. Effects of Young’s modulus, COD and CTE on oxidative stress in the oxide film were studied. The simulation results showed that a better agreement with the experimental results could be obtained when considering the oxidation-induced material parameter variations in the high temperature mechanical analysis of oxide film / metal substrate system. The simulation results said that oxidative stress and ox idation weight gain were more sensitive to the variation of Young’s modulus than to the variations of COD and CTE.