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Main Authors: Li, Yue, Wang, Lei, Li, Junjie, Wang, Jincheng, Wang, Zhijun
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2405.11568
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author Li, Yue
Wang, Lei
Li, Junjie
Wang, Jincheng
Wang, Zhijun
author_facet Li, Yue
Wang, Lei
Li, Junjie
Wang, Jincheng
Wang, Zhijun
contents Based on the idea of maintaining physical diffuse interface kinetics, enhancing interfacial diffusivity has recently provided a new direction for quantitative phase-field simulation at microstructural length and time scale. Establishing a general relationship between interface diffusivity and width is vital to facilitate the practical application. However, it is still limited by time-consuming numerical corrections, and its relationship with non-dilute thermodynamic properties still needs to be revealed. In this study, we present a new thermodynamic and analytical method for determining interfacial diffusivity enhancement. Unlike previous numerical corrections of partition coefficients and interface temperature, this new method aims to keep several thermodynamic quantities unchanged after enlarging the interface width. These essential quantities are theoretically proven to be diffusion potential jump across the diffuse interface and free energy dissipation by trans-interface diffusion. Since no dilute approximation has been employed in model derivation, the present method is available for binary alloys with arbitrary thermodynamic properties and can be easily extended to describe multicomponent systems. Therefore, the present method is expected to advance the recent quantitative phase-field framework and facilitate its practical applications.
format Preprint
id arxiv_https___arxiv_org_abs_2405_11568
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle A thermodynamic and analytical description on the quantitative phase-field model with enhanced interface diffusivity
Li, Yue
Wang, Lei
Li, Junjie
Wang, Jincheng
Wang, Zhijun
Materials Science
Based on the idea of maintaining physical diffuse interface kinetics, enhancing interfacial diffusivity has recently provided a new direction for quantitative phase-field simulation at microstructural length and time scale. Establishing a general relationship between interface diffusivity and width is vital to facilitate the practical application. However, it is still limited by time-consuming numerical corrections, and its relationship with non-dilute thermodynamic properties still needs to be revealed. In this study, we present a new thermodynamic and analytical method for determining interfacial diffusivity enhancement. Unlike previous numerical corrections of partition coefficients and interface temperature, this new method aims to keep several thermodynamic quantities unchanged after enlarging the interface width. These essential quantities are theoretically proven to be diffusion potential jump across the diffuse interface and free energy dissipation by trans-interface diffusion. Since no dilute approximation has been employed in model derivation, the present method is available for binary alloys with arbitrary thermodynamic properties and can be easily extended to describe multicomponent systems. Therefore, the present method is expected to advance the recent quantitative phase-field framework and facilitate its practical applications.
title A thermodynamic and analytical description on the quantitative phase-field model with enhanced interface diffusivity
topic Materials Science
url https://arxiv.org/abs/2405.11568