Universal enthalpy-entropy compensation rule for the deformation of metallic glasses

Wang, Yun-Jiang; Zhang, Meng; Liu, Lin; Ogata, Shigenobu; Dai, L.H.

doi:10.1103/physrevb.92.174118

Cited by 21 publications

(18 citation statements)

References 82 publications

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“…S1 of the Supplemental Material [51]), which agrees with the above analysis [22,34]. If we rewrite Eq.…”

Section: B Activation Free Energysupporting

confidence: 73%

“…This scenario of a stress-induced glass transition agrees with early speculation [52] and atomistic demonstration [39]. Figure S2 of the Supplemental Material provides further evidence for this point [51]. The viscosity contour η(τ,T ) = τ/γ 0 exp ( G/k B T ) shown in Fig.…”

Section: A Temperature-and Stress-driven Transition Of Deformation Msupporting

confidence: 72%

“…1(a) and 1(b) for simulations [51]. Figures 1(c) and 1(d) show that the flow stress is more strain-rate sensitive at high temperature, which indicates that the deformation unit becomes less collective (activation volume is inversely proportional to the rate sensitivity).…”

Section: A Temperature-and Stress-driven Transition Of Deformation Mmentioning

confidence: 89%

“…S4 of the Supplemental Material [51]. We may understand the compensation rule in terms of basic thermodynamics.…”

Section: Discussionmentioning

confidence: 99%

“…Then we extract G as a function of T for multiple stress levels; see Fig. S3 in Supplemental Material [51]. Linear fits based on Eq.…”

Section: B Enthalpy-entropy Compensation Discovered In Mg Through Atmentioning

confidence: 99%

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The thermodynamic compensation law describing an empirical linear relationship between activation enthalpy and activation entropy has seldom been validated for amorphous solids. Here molecular dynamics simulations reveal a well-defined enthalpy-entropy compensation rule in a metallic glass (MG) over a wide temperature and stress range, spanning the glass transition induced by temperature and/or stress. Experiments on other MGs reproduce this law, suggesting that it applies universally to amorphous solids, so we extend it from crystals to amorphous solids. In the glassy state, the compensation temperature is found to agree with the thermal glass transition temperature T g ; whereas in the supercooled liquid region, the compensation temperature matches ∼ 1.4T g , at which the diffusion kinetics start to feel the roughness of the free-energy surface.

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“…S1 of the Supplemental Material [51]), which agrees with the above analysis [22,34]. If we rewrite Eq.…”

Section: B Activation Free Energysupporting

confidence: 73%

Section: A Temperature-and Stress-driven Transition Of Deformation Msupporting

confidence: 72%

Section: A Temperature-and Stress-driven Transition Of Deformation Mmentioning

confidence: 89%

“…S4 of the Supplemental Material [51]. We may understand the compensation rule in terms of basic thermodynamics.…”

Section: Discussionmentioning

confidence: 99%

“…Then we extract G as a function of T for multiple stress levels; see Fig. S3 in Supplemental Material [51]. Linear fits based on Eq.…”

Section: B Enthalpy-entropy Compensation Discovered In Mg Through Atmentioning

confidence: 99%

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F²,

SH³

et al. 2015

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show abstract

Extraordinary creep relaxation time in a La-based metallic glass

et al. 2017

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Indentation creep dynamics in metallic glasses under different structural states

Tao

Khonik²,

Qiao³

2023

International Journal of Mechanical Sciences

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Universal enthalpy-entropy compensation rule for the deformation of metallic glasses

Abstract: addition, this study can help to promote the effective fusion of droplets and further the biological and chemical applications on droplet microfluidics.

Cited by 21 publications

References 82 publications

Midinfrared Absorption Measurements of Nitrous Oxide in Ammonium Dinitramide Monopropellant Thruster

Midinfrared Absorption Measurements of Nitrous Oxide in Ammonium Dinitramide Monopropellant Thruster

Extraordinary creep relaxation time in a La-based metallic glass

Indentation creep dynamics in metallic glasses under different structural states

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