摘要
对于大型复杂的几何体,不可能仅通过一次算法自动剖分即得到高质量单元,剖分过程容易出现边界单元狭长、曲面内部单元尖锐等问题,由此,提出局部光顺优化算法。算法结合全局光顺方法以及局部网格拓扑结构优化方法的优点,避免了全局性优化算法计算量过大的缺陷,较传统优化算法,具有较好稳定性,通过实验验证,优化后的单元整体大小均匀、形状规整,在提高数值计算效率方面有较好表现。
Abstract. For large and complicated geometry, it is not feasible to produce high quality mesh using au- tomated algorithms at once. There are so many problems in meshing of faces, such as narrow elements on edges, sharp elements in face, and so on. In this paper, we present a local smoothing algorithm which combines the advantages of global smoothing method and local deterministic method. This algorithm a- voids substantial consumption of computer resources and obtains more reliable results than the traditional algorithm. The implementation results show that the mesh elements will be well--distributed in sizo ~.~1 homogeneous in ~h^r,,~ o1"~ ~t. r,
出处
《机械与电子》
2016年第8期7-11,共5页
Machinery & Electronics
基金
国防技术基础科研资助项目(Jszl2014210b001)
国防基础科研计划资助项目(A1120131044)
关键词
同步建模分析
网格单元优化
狭长单元
尖锐单元
局部多边形
synchronous modeling and analysis~ mesh elements refinement
narrow element
sharp element
local polygon
