A thermo-mechanically coupled phase-field fracture model for shape memory alloys incorporates elastocaloric effects and eigenstrains to simulate non-isothermal cracking during martensitic transformation.
Specific mechanical properties of highly porous Ti -Zr-Mo-Sn shape memory alloy for biomedical applications
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Thermo-mechanically coupled phase-field fracture model considering elastocaloric effect of shape memory alloy
A thermo-mechanically coupled phase-field fracture model for shape memory alloys incorporates elastocaloric effects and eigenstrains to simulate non-isothermal cracking during martensitic transformation.