Solid Solution Structure and Elastic Modulus of Single Atom in Transition Metal Nitrides:First Principle Studies

CHINESE JOURNAL OF COMPUTATIONAL PHYSICS ›› 2013, Vol. 30 ›› Issue (3): 433-440.

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Solid Solution Structure and Elastic Modulus of Single Atom in Transition Metal Nitrides:First Principle Studies

LIU Xuejie, REN Yuan

School of Mechanical Engineering, Inner Mongolia University of Science & Technology, Baotou, Inner Mongolia 014010, China

Received:2012-09-06 Revised:2012-12-10 Online:2013-05-25 Published:2013-05-25

Abstract

Abstract: In order to investigate interface structure of composite films,several solid solution structures and elastic properties of a single atom in transition metal nitrides are studied with first principle method based on density functional theory.The calculation shows interesting results:(1) A silicon atom could not form a solid solution in TiN,ZrN,HfN,or TaN crystallites.It is the same for a germanium atom in TiN crystallite.(2) As distance between crystallites becomes large,a silicon atom in TiN,ZrN,HfN and TaN or a germanium atom in TiN may form interstitial or substitution interface structures.(3) A silicon atom in NbN or a boron atom in TiN could form interstitial or substitution interface structures.(4) Interface structures of a silicon atom in VN or a carbon atom in TiN is a substitution structure.Studies of mechanic properties indicate that modulus of elastic,bulk,shear and Young's of lower energy substitution and interstitial solid solution is less than that of transition metal nitrides.

Key words: single atom, transition metal nitrides, first principle, solid solution structure, elastic properties

CLC Number:

O484.2

LIU Xuejie, REN Yuan. Solid Solution Structure and Elastic Modulus of Single Atom in Transition Metal Nitrides:First Principle Studies[J]. CHINESE JOURNAL OF COMPUTATIONAL PHYSICS, 2013, 30(3): 433-440.

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Solid Solution Structure and Elastic Modulus of Single Atom in Transition Metal Nitrides:First Principle Studies

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