约束三元共混聚合物模型的一个有效且无条件能量稳定的完全离散格式

IF 1.2 Q2 MATHEMATICS, APPLIED
Guanghua Ji, Zhen Xu null, Yuqi Yang
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引用次数: 0

摘要

在本文中,我们基于时间上的稳定标量辅助变量(S-SAV)方法和空间上的傅立叶谱方法,开发了一种完全离散的方案来求解具有四阶参数的确定的三元共混聚合物(TBP)模型。然后,基于反向微分公式对该方案进行了理论分析。导出了无条件的能量稳定性和质量守恒。严格的误差分析表明,在L2范数意义下,全离散格式的收敛阶为O(τ2+hm),其中τ是时间步长,h是空间步长,m是精确解的正则性。最后给出了一些数值结果,对理论分析进行了验证。此外,还对两种聚合物颗粒,即Ashura和Janus核壳颗粒进行了相分离,以显示其形态结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Efficient and Unconditionally Energy Stable Fully Discrete Scheme for the Confined Ternary Blended Polymers Model
. In this paper, we develop a fully discrete scheme to solve the confined ternary blended polymers (TBP) model with four order parameters based on the stabilized-scalar auxiliary variable (S-SAV) approach in time and the Fourier spectral method in space. Then, theoretical analysis is given for the scheme based on the back-ward differentiation formula. The unconditional energy stability and mass conserva-tion are derived. Rigorous error analysis is carried out to show that the fully discrete scheme converges with order O ( τ 2 + h m ) in the sense of the L 2 norm, where τ is the time step, h is the spatial step, and m is the regularity of the exact solution. Finally, some numerical results are given to demonstrate the theoretical analysis. Moreover, the phase separation of two kinds of polymer particles, namely, Ashura and Janus core-shell particles, is presented to show the morphological structures.
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2.70
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