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W4387343458 abstract "Much of the impact of thermal activation on the low-temperature dynamics of the thermoelastic martensitic transformation (MT) remains unresolved. This study introduces the concept of viscosity of superelasticity, referred to herein as ``viscosuperelasticity,'' to comprehensively interpret the slow dynamics of stress-induced isothermal MT at low temperatures. The thermal activation dynamics underlying this concept allow for deriving the time-temperature-transformation (TTT) diagrams at any holding stress from the temperature- and strain-rate-dependent superelastic stress-strain curves. Experimental results for isothermal forward and reverse MTs comprehensively agree with the derived TTT diagrams, disclosing the nonreciprocity in the dynamics between the forward and reverse MT paths. One of the representative manifestations of viscosuperelasticity is the difference in the cooling/heating-rate dependence of the forward/reverse MT starting and finishing temperatures (${T}_{mathrm{Ms}}, {T}_{mathrm{Mf}}, {T}_{mathrm{As}}$, and ${T}_{mathrm{Af}}$). A significant decrease in ${T}_{mathrm{Ms}}$ and ${T}_{mathrm{Mf}}$ with increasing cooling rate explains kinetic arrest, and a gradual increase in ${T}_{mathrm{As}}$ and ${T}_{mathrm{Af}}$ with increasing heating rate explains the difficulty in detecting the isothermal evolution of the reverse MT. The TTT diagrams also enable the impact of thermal activation upon dynamic cooling/heating to be evaluated quantitatively, explaining the nonergodic thermal-history dependence of anelastic transformation strain, which has been believed to be an essential signature of strain glass. The concept of viscosuperelasticity offers a comprehensive interpretation of nonreciprocal isothermal dynamics, kinetic arrest, and nonergodicity in the anelastic strain as manifestations of thermal activation of MTs." @default.
W4387343458 created "2023-10-05" @default.
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W4387343458 date "2023-10-04" @default.
W4387343458 modified "2023-10-14" @default.
W4387343458 title "Viscosity of superelasticity: A comprehensive interpretation of nonreciprocal isothermal dynamics, kinetic arrest, and nonergodic anelastic strain based on thermal activation of martensitic transformations" @default.
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W4387343458 doi "https://doi.org/10.1103/physrevb.108.134103" @default.
W4387343458 hasPublicationYear "2023" @default.
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