Deriving a fundamental equation for macroscopic stress in chemically strengthened glass: A thermodynamic model

Traditionally, the stuffing model has been used to describe stress generation in chemically strengthened glass. Nevertheless, the associated unrealistic conditions, including an imaginary volume expansion and its suppression in an adiabatic closed system, inhibit a thorough understanding of the proc...

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Veröffentlicht in:	Journal of applied physics 2024-06, Vol.135 (24)
Hauptverfasser:	Terakado, Nobuaki, Matsumoto, Kota, Murai, Daichi, Ebukuro, Shingo, Takahashi, Yoshihiro, Kizaki, Kazuro, Fujiwara, Takumi, Orihara, Shuji, Orihara, Yoshio
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Sprache:	eng
Schlagworte:	Ion exchange NMR Nuclear magnetic resonance Open systems Raman spectroscopy Thermodynamic models Thermodynamics
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container_title	Journal of applied physics
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creator	Terakado, Nobuaki Matsumoto, Kota Murai, Daichi Ebukuro, Shingo Takahashi, Yoshihiro Kizaki, Kazuro Fujiwara, Takumi Orihara, Shuji Orihara, Yoshio
description	Traditionally, the stuffing model has been used to describe stress generation in chemically strengthened glass. Nevertheless, the associated unrealistic conditions, including an imaginary volume expansion and its suppression in an adiabatic closed system, inhibit a thorough understanding of the process. In this study, we propose a thermodynamic model in an isothermal open system to enable ion exchange without an imaginary volume expansion. We derive a fundamental equation and verify it using atomistic images obtained by Raman spectroscopy and nuclear magnetic resonance. This study paves the way for further atomistic design and development of strengthened glasses.
doi_str_mv	10.1063/5.0204149
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subjects	Ion exchange NMR Nuclear magnetic resonance Open systems Raman spectroscopy Thermodynamic models Thermodynamics
title	Deriving a fundamental equation for macroscopic stress in chemically strengthened glass: A thermodynamic model
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