Yong Seok Hwang scite author profile

In this Letter, continuum thermodynamic and phase field approaches (PFAs) predicted internal stress-induced reduction in melting temperature for laser-irradiated heating of a nanolayer. Internal stresses appear due to thermal strain under constrained conditions and completely relax during melting, producing an additional thermodynamic driving force for melting. Thermodynamic melting temperature for Al reduces from 933.67 K for a stress-free condition down to 898.1 K for uniaxial strain and to 920.8 K for plane strain. Our PFA simulations demonstrated barrierless surface-induced melt nucleation below these temperatures and propagation of two solid-melt interfaces toward each other at the temperatures very close to the corresponding predicted thermodynamic equilibrium temperatures for the heating rate Q≤1.51×1010K/s. At higher heating rates, kinetic superheating competes with a reduction in melting temperature and melting under uniaxial strain occurs at 902.1 K for Q = 1.51 × 1011 K/s and 936.9 K for Q = 1.46 × 1012 K/s.

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ISS-CREAM Flight Operation

Kim¹,

Amare²,

Anthony³

et al. 2019

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Free View 3-D Visualization of Occluded Objects by Using Computational Synthetic Aperture Integral Imaging

Hwang

Hong

Javidi

2007

J. Display Technol.

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Yong Seok Hwang

Cosmic Ray Energetics And Mass for the International Space Station (ISS-CREAM)

Internal stress-induced melting below melting temperature at high-rate laser heating

ISS-CREAM Flight Operation

Free View 3-D Visualization of Occluded Objects by Using Computational Synthetic Aperture Integral Imaging

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