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Streszczenie:
In this paper, we revisit a classical multiwell phase-field model in the context of beta-omega phase transformations in titanium alloys. We propose a novel model by adjusting the algebraic part of the traditional interfacial free energy in a way that allows for a relaxation of the standard wellposedness constraints on surface tensions in the total-spreading case. The proposed adjustment effectively prevents the formation of a mixed omega-omega state in the resulting phase-field continuum model, aligning with the crystallographic impossibility of such a configuration in reality. We further introduce a chemical energy mixing function that preserves the local stability of purely two-phase beta-omega configurations, preventing the spontaneous appearance of additional phases. We illustrate the advantages of the novel model through numerical simulations in one, two and three spatial dimensions and outline a pathway toward a more realistic model of beta-omega transition model in titanium alloys.

Słowa kluczowe:
interfaces, phase transition, total-spreading regime, omega phase, titanium alloys, phase-field method