An ab initio study of the energetics for interfaces between group V transition metal carbides and bcc iron

Authors
Chung, Soon-HyoHa, Heon-PhilJung, Woo-SangByun, Ji-Young
Issue Date
2006-10
Publisher
IRON STEEL INST JAPAN KEIDANREN KAIKAN
Citation
ISIJ INTERNATIONAL, v.46, no.10, pp.1523 - 1531
Abstract
An ab initio study was carried out on interface energies, misfit strain energies, and electron structures at coherent interfaces between bcc Fe and MCs (NaCl structure, M=V, Nb, Ta). The interface energies at relaxed interfaces Fe/VC, Fe/NbC, and Fe/TaC were -0.120, -0.169 and -0.158 J/m(2), respectively. Influence of bond energy was estimated using the discrete lattice plane/nearest neighbor broken bond (DLP/NNBB) model. It was found that the dependence of interface energy on the type of carbide was closely related to changes of the bond energies between Fe, M and C atoms before and after formation of the interfaces Fe/MC. The misfit strain energies in Fe/VC, Fe/NbC, and Fe/TaC systems were 0.086, 0.891 and 0.827 eV per 16 atoms (Fe; 8 atoms and MC; 8 atoms), respectively. The misfit strain energy became larger when difference of lattice parameters between the bulk Fe and the bulk MCs increased.
Keywords
PRECIPITATION; 1ST-PRINCIPLES; RELAXATION; ADHESION; SEQUENCE; ENERGY; PRECIPITATION; 1ST-PRINCIPLES; RELAXATION; ADHESION; SEQUENCE; ENERGY; interface energy; misfit strain energy; transition metal carbides; bcc iron; ab initio calculation
ISSN
0915-1559
URI
https://pubs.kist.re.kr/handle/201004/135069
DOI
10.2355/isijinternational.46.1523
Appears in Collections:
KIST Article > 2006
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