Atomic mobilities and diffusivities in the fcc, L12 and B2 phases of the Ni-Al system

• Published in: International journal of materials research Vol. 101; no. 12; pp. 1461 - 1475
• Main Authors: Zhang, Lijun, Du, Yong, Chen, Qing, Steinbach, Ingo, Huang, Baiyun
• Format: Journal Article
• Language: English
• Published: Munich De Gruyter 01.12.2010; Hanser
• Subjects: Applied sciences; Atomic mobility; DICTRA; Diffusion; Exact sciences and technology; Metals. Metallurgy; Ni-Al system; Order/disorder phenomena; Atomic mobility; Intermetallic compound; DICTRA; Order disorder transformation; Ni-Al system; Diffusion; Order/disorder phenomena
• ISSN: 1862-5282; 2195-8556
• DOI: 10.3139/146.110428

A phenomenological model was utilized to describe diffusivities in the γ (fcc) /γü (L1 ) and A2/B2 phases of the NiüAl system. An effective strategy, which takes the homogeneity range and defect concentration into account, was developed in the present work to optimize the atomic mobilities of γü phase. Such a strategy results in a dramatic decrease in the number of atomic mobility parameters to be evaluated for the L1 phase. The measured composition- and temperature- dependent diffusivities in the NiüAl system have been well replicated by the present mobility descriptions. For the L1 phase, comprehensive comparisons show that with fewer model parameters the presently obtained mobilities yield a better fit to experimental diffusivities, compared with previous assessments. The mobility descriptions are further validated by comparing calculated and measured concentration profiles for various diffusion couples. The time-dependent Al composition profile for the annealed vapor Al / γ couple is accurately described for the first time.