为 CAD 模型生成最小曲面引导的高阶网格

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-10-01 DOI:10.1016/j.cad.2024.103810
Kaixin Yu , Bohan Wang , Xuejuan Chen , Ying He , Jianjun Chen
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引用次数: 0

摘要

本文提出了一种新方法,利用最小曲面理论改进元素形状,为 CAD 曲面生成高阶网格。我们通过变形梯度探索了高阶网格变形的概念,并引入了旨在最小化这些网格表面积的能量函数,为其在解缠方面的有效性提供了理论依据。网格生成过程首先是将 CAD 表面分割成线性元素,然后在这些元素中插入高阶节点。然后将这些节点投影到 CAD 表面,形成初始高阶元素。通过优化与最小曲面和投影距离相关的能量函数,我们获得了高质量、几何精度高的高阶曲面网格。我们的方法已在复杂几何图形上得到验证,展示了其为工业 CAD 模型创建有效高阶网格的潜力。
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Minimal surface-guided higher-order mesh generation for CAD models
This paper presents a novel method for generating higher-order meshes for CAD surfaces by leveraging minimal surface theory to improve element shapes. We explore the concept of higher-order mesh distortion through deformation gradients and introduce an energy function designed to minimize the surface area of these meshes, providing a theoretical justification for its effectiveness in untangling. The process of mesh generation starts with segmenting CAD surfaces into linear elements, followed by the insertion of higher-order nodes within these elements. These nodes are then projected onto the CAD surface to form the initial higher-order elements. By optimizing energy functions related to minimal surfaces and the projection distances, we achieve high-quality, geometrically accurate higher-order surface meshes. Our method has been validated on complex geometries, showcasing its potential in creating effective higher-order meshes for industrial CAD models.
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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