Content area
Abstract
A first-principles quantum-mechanical computational code has been used to compute the energy of formation for selected ordered and topologically close-packed (TCP) phases in a Ni-base alloy. The thermodynamic data are incorporated into an existing database for Ni alloys and used in conjunction with the CALPHAD approach to compute the binary Ni-Cr phase diagram. In addition, a thermodynamic model is used to treat long-range ordering and the formation of the Ni^sub 2^Cr. The phase field for ordering is compared against that predicted by the Thermo-Calc to elucidate possible implications on the long-term phase stability of Ni-base alloys in a nuclear waste repository environment. [PUBLICATION ABSTRACT]
Details
Title
Computation of Ni-Cr Phase Diagram via a Combined First-Principles Quantum Mechanical and CALPHAD Approach
Author
Chan, Kwai S; Yi-Ming, Pan; Yi-Der, Lee
Pages
2039-2050
Publication year
2006
Publication date
Jul 2006
ISSN
10735623
e-ISSN
15431940
Source type
Scholarly Journal
Language of publication
English
ProQuest document ID
213706840
Copyright
Copyright Minerals, Metals & Materials Society Jul 2006