Radiation-induced crystalline-to-amorphous transition in intermetallic compounds of the CuTi alloy system

Recent progress in molecular-dynamics studies of radiation-induced crystalline-to-amorphous transition in the ordered intermetallic compounds of the CuTi system is discussed. The effect of irradiation was simulated by the generation of Frenkel pairs, which resulted in both the formation of stable p...

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Bibliographic Details
Published in:Journal of alloys and compounds 1993-01, Vol.194 (2), p.429-437
Main Authors: Lam, N.Q., Okamoto, P.R., Sabochick, M.J., Devanathan, R.
Format: Article
Language:English
Subjects:
Amorphous materials
Copper alloys
Crystal structure
Crystalline materials
Intermetallics
Mechanical properties
Order disorder transitions
Radiation effects
Thermodynamics
Titanium alloys
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Summary:Recent progress in molecular-dynamics studies of radiation-induced crystalline-to-amorphous transition in the ordered intermetallic compounds of the CuTi system is discussed. The effect of irradiation was simulated by the generation of Frenkel pairs, which resulted in both the formation of stable point defects and chemical disorder upon defect recombination. The thermodynamic, structural and mechanical responses of the compounds during irradiation were determined by monitoring changes in the system potential energy, volume expansion, pair-correlation function, diffraction patterns, and elastic constants. It was found that the intermetallics Cu 4Ti 3, CuTi and CuTi 2 could be rendered amorphous by the creation of Frenkel pairs, but Cu 4Ti could not, consistent with experimental observations during electron irradiation. However, the simulations showed that Cu 4Ti did become amorphous when clusters of Frenkel pairs were introduced, indicating that this compound may be susceptible to amorphization by heavy-ion bombardment. A generalization of the Lindemann criterion was used to develop a thermodynamic description of solid-state amorphization as a disorder-induced melting process.
ISSN:0925-8388
1873-4669
DOI:10.1016/0925-8388(93)90028-L