圆孔金属泡沫的隐式曲面三维造型

IF 0.4 Q4 ENGINEERING, MULTIDISCIPLINARY

Journal of Advanced Simulation in Science and Engineering Pub Date : 2019-01-01 DOI:10.15748/JASSE.6.195

Yuya Hanaoka, Momoko Nojiri, T. Itoh, S. Nakata, Keiko Watanabe

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引用次数: 2

摘要

为了构造具有类似真实泡沫的圆形孔的金属泡沫模型，提出了一种基于隐式表面的建模方法。该方法首先通过泊松盘抽样随机生成均匀点，并由这些点构造Voronoi图。此外，通过适当设置约束条件，在每个Voronoi细胞中生成隐式函数f (x)。隐式曲面表示为f (x) = 0，并且设置约束使f (x) = 0在每个Voronoi细胞内生成。在这个模型中，金属泡沫的壁由相邻Voronoi细胞的隐式表面之间的空间表示。通过调整约束条件，可以构造出不同厚度的圆墙。此外，墙壁可以转换成一个实体模型，作为填充空间的四面体。

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Three-Dimensional Shape Modelling of Metal Foam with Rounded Cells by Implicit Surfaces

To construct a model of metal foam that has rounded cells such as a real one, an implicit surface based modelling method has been proposed. In this method, uniformed points are first generated randomly by Poisson-disk sampling, and a Voronoi diagram is constructed from the points. In addition, an implicit function f (x) is generated in each of Voronoi cells by setting some constraints appropriately. An implicit surface is represented as f (x) = 0, and the constraints are set so that f (x) = 0 is generated inside each of Voronoi cells. In this model, walls of metal foam are represented by space between implicit surfaces of adjacent Voronoi cells. Rounded walls that have various thicknesses can be constructed by adjusting the constraints. In addition, the walls can be converted to a solid model constructed as tetrahedra filling the space.

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Journal of Advanced Simulation in Science and Engineering ENGINEERING, MULTIDISCIPLINARY-

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