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- Title
Dislocation-Induced Dispersion of Nanoparticles As a Reason for the Cyclic Functional Instability of Ni–Fe–Ga–Co Alloys.
- Authors
Malygin, G. A.
- Abstract
A physical mechanism underlying the cyclic functional instability of as-grown Ni49Fe18Ga27Co6 alloy crystals has been discussed in terms of the theory of diffuse martensitic transitions. The crystals have been subjected to "compression along the [011] direction–shape memory strain recovery by heating" thermomechanical cycles. Cycling causes a considerable reduction of compression stresses and their stabilization after nine to ten thermomechanical cycles. It has been analytically shown that the reduction of compression stresses is associated with the dispersion (disordering) of antiphase domains by slip dislocations. As a result, the antiphase nanodomain B2 superstructure of the as-grown crystal transforms into the L21 structure characteristic of the given alloy subjected to high-temperature postgrowth annealing.
- Subjects
ALLOYS; NANOPARTICLES; DISPERSION (Chemistry); HEAT recovery; ANNEALING of metals; CRYSTALS; IRON-manganese alloys
- Publication
Technical Physics, 2022, Vol 66, Issue 4, p630
- ISSN
1063-7842
- Publication type
Article
- DOI
10.1134/S1063784221040125