Abstract Six interface models are constructed and used to find out the cohesion properties of W-ZrC interfaces through first principles calculations. It is revealed that interface orientation has an important… Click to show full abstract
Abstract Six interface models are constructed and used to find out the cohesion properties of W-ZrC interfaces through first principles calculations. It is revealed that interface orientation has an important effect on heat of formation and interface strength of W-ZrC interfaces, i.e., the W(110)-ZrC(111) interfaces with the Kurdjumov-Sachs (KS) relationship are not only energetically more favorable with more positive heats of formation, but also possess higher work of separation. Electronic structure calculations also show that the W-C bond fundamentally determines the magnitude of the interface cohesion between W and ZrC. The derived results are in good agreement with experimental observations in the literature, and could provide a deep understanding of cohesion properties of W-ZrC interfaces.
Journal Title: Journal of Alloys and Compounds
Year Published: 2018
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