基于粒子的固液相变及相互作用的仿真与可视化

2021 International Conference on Communications, Computing, Cybersecurity, and Informatics (CCCI) Pub Date : 2021-10-15 DOI:10.1109/CCCI52664.2021.9583207

Zihao Liu, Yanrui Xu, Xiaokun Wang, X. Ban, Z. Zheng

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引用次数: 0

摘要

自然现象的模拟和可视化在计算机图形学中得到了广泛的研究。但这些研究较少涉及复杂的现象，如固液相互作用和转变。提出了一种基于傅立叶定律的光滑粒子流体力学(SPH)模拟和可视化固液热传导和相变的方法。为了实现固液两相材料的相变、时空离散化，我们将温度场映射到固体和液体颗粒上，并结合热传导模型。我们的方法包括固体与液体之间的热传导，固体与周围空气之间的热传导，以及相变引起的潜热。实验结果表明，该方法可以实现稳定的热传导和从固体到液体的平滑相变，具有精确的模拟细节和可视化效果。

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Simulation and visualization of solid-liquid phase transition and interactive using particle-based method

The simulation and visualization of natural phenomena has been widely studied in computer graphics. But those studies are less involved in complex phenomena, such as solid-liquid interaction and transition. We propose a method for simulation and visualization of solid-liquid heat conduction and phase transition using Smooth Particle Hydrodynamics(SPH) based on Fourier law. To achieve a realistic phase transition, spatio-temporal discretization of solid-liquid two-phase material, we map the temperature field to solid and liquid particles and combining with the heat conduction model. Our method includes heat conduction between solid and liquid, solid and surrounding air, and latent heat caused by phase transition. The experimental results show that our method can realize stable heat conduction and smooth phase transition from solid to liquid with accurate simulation details and visualization effects.

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来源期刊

2021 International Conference on Communications, Computing, Cybersecurity, and Informatics (CCCI)

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