A $$\theta $$ -L Approach for the Simulation of Solid-State Dewetting Problems with Strongly Anisotropic Surface Energies

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-06-19 DOI:10.1007/s10915-024-02589-z
Weijie Huang, Wei Jiang, Yan Wang
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Abstract

This paper aims to develop an efficient numerical scheme for simulating solid-state dewetting with strongly anisotropic surface energies in two dimensions. The governing equation is a sixth-order, highly nonlinear geometric partial differential equation, which makes it quite challenging to design an efficient numerical scheme. To tackle this problem, we first introduce an appropriate tangent velocity of the interface curve which could help mesh points equally distribute along the curve, then we reformulate the governing equation in terms of the tangent angle \(\theta \) and the length L of the interface curve with a release of the stiffness brought by surface tension. To further reduce the numerical stability constraint from the high-order PDE, we propose a mixed finite element method for solving the reformulated \(\theta \)-L equations. Numerical results are provided to demonstrate that the \(\theta \)-L approach is not only efficient and accurate, but also has the mesh equidistribution property with an improved numerical stability.

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模拟具有强各向异性表面能量的固态润湿问题的 $$\theta $$ -L 方法
本文旨在开发一种高效的数值方案,用于模拟二维具有强各向异性表面能的固态露化。支配方程是一个六阶、高度非线性的几何偏微分方程,这使得设计一个高效的数值方案具有相当大的挑战性。为了解决这个问题,我们首先引入了适当的界面曲线切线速度,这有助于网格点沿曲线平均分布,然后我们用切线角度(\theta \)和界面曲线长度 L 来重新表述支配方程,并释放了表面张力带来的刚度。为了进一步减少来自高阶 PDE 的数值稳定性约束,我们提出了一种混合有限元方法来求解重新表述的 \(\theta \)-L 方程。数值结果表明,(theta)-L 方法不仅高效、精确,而且具有网格等分布特性,数值稳定性也有所提高。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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