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000904024 1001_ $$0P:(DE-Juel1)156565$$aPillai, R.$$b0$$eCorresponding author
000904024 245__ $$aModeling in High Temperature Corrosion: A Review and Outlook
000904024 260__ $$aDordrecht [u.a.]$$bSpringer Science + Business Media B.V$$c2021
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000904024 520__ $$aRealizing higher operating temperatures to increase efficiency of future applications for energy conversion and storage while minimizing cost is a challenge for development of high-temperature materials. Simultaneous optimization of mechanical properties and corrosion resistance continues to be a difficult task but is essential due to the need to significantly accelerate the transition between technology readiness levels in the future. Oxidation-induced degradation will be a critical life-limiting mechanism at increased operating temperatures. Suitable high-temperature materials cannot be solely identified by time-consuming experiments and reliable computational methods incorporating the relevant physics of processes must be considered to complement the experimental efforts. In the present work, a review of the methods employed to model oxidation-induced material degradation described in literature will be discussed. Furthermore, their capability to predict lifetime and aid in material selection will be evaluated.
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000904024 7001_ $$0P:(DE-Juel1)129701$$aChyrkin, A.$$b1
000904024 7001_ $$0P:(DE-Juel1)129782$$aQuadakkers, Willem J.$$b2
000904024 773__ $$0PERI:(DE-600)2018581-9$$a10.1007/s11085-021-10033-y$$gVol. 96, no. 5-6, p. 385 - 436$$n5-6$$p385 - 436$$tOxidation of metals$$v96$$x0030-770X$$y2021
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