Robust h-adaptive meshing strategy considering exact arbitrary CAD geometries in a Cartesian grid framework

Marco Onofre; Jose Rodenas Juan; Manuel Navarro-Jimenez Jose; Tur Manuel

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Robust h-adaptive meshing strategy considering exact arbitrary CAD geometries in a Cartesian grid framework

机译：笛卡尔网格框架中考虑精确任意CAD几何的鲁棒h自适应网格划分策略

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摘要

Geometry plays a key role in contact and shape optimization problems in which the accurate representation of the exact geometry and the use of adaptive analysis techniques are crucial to obtaining accurate computationally-efficient Finite Element (FE) simulations. We propose a novel algorithm to generate 3D h-adaptive meshes for an Immersed Boundary Method (IBM) based on Cartesian grids and the so-called NEFEM (NURBS-Enhanced FE Method) integration techniques. To increase the accuracy of the results at the minimum computational cost we seek to keep the efficient Cartesian structure of the mesh during the whole analysis process while considering the exact boundary representation of domains given by NURBS or T-Splines.

机译：几何形状在接触和形状优化问题中起着关键作用，其中精确几何形状的精确表示和自适应分析技术的使用对于获得精确的计算效率有限元（FE）模拟至关重要。我们提出了一种新颖的算法，用于基于笛卡尔网格和所谓的NEFEM（NURBS增强FE方法）集成技术为沉浸边界方法（IBM）生成3D h自适应网格。为了以最小的计算量来提高结果的准确性，我们试图在整个分析过程中保持有效的网格笛卡尔结构，同时考虑由NURBS或T样条曲线给出的域的精确边界表示。

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来源
《Computers & Structures》 |2017年第12期|87-109|共23页
作者
Marco Onofre; Jose Rodenas Juan; Manuel Navarro-Jimenez Jose; Tur Manuel;
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作者单位

Univ Politecn Valencia, CIIM, E-46022 Valencia, Spain;

Univ Politecn Valencia, CIIM, E-46022 Valencia, Spain;

Univ Politecn Valencia, CIIM, E-46022 Valencia, Spain;

Univ Politecn Valencia, CIIM, E-46022 Valencia, Spain;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Cartesian grids; h-refinement; NURBS; NEFEM;

机译：笛卡尔网格;h-细化;NURBS;NEFEM;

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1. Structural shape optimization using Cartesian grids and automatic h-adaptive mesh projection [J] . Marco Onofre, Jose Rodenas Juan, Albelda Jose, Structural and multidisciplinary optimization . 2018,第1期

机译：使用笛卡尔栅格和自动H自适应网格投影的结构形状优化
2. An immersed boundary method on Cartesian adaptive grids for the simulation of compressible flows around arbitrary geometries [J] . S. Peron, C. Benoit, T. Renaud, Engineering with Computers . 2021,第3期

机译：关于笛卡尔自适应网格的浸没边界法，用于围绕任意几何形状模拟的压缩流动
3. The Quasidiffusion Method for Transport Problems in 2D Cartesian Geometry on Grids Composed of Arbitrary Quadrilaterals [J] . William A. Wieselquist, Dmitriy Y. Anistratov Transactions of the American nuclear society . 2007,第Nov期

机译：任意四边形网格上二维笛卡尔几何输运问题的拟扩散方法
4. A Fast and Fully Automated Cartesian Meshing Solution for Dirty CAD Geometries [C] . Santosh Kini, Richard Thoms, Fanglin Zhu Motorsports Engineering Conference . 2008

机译：用于脏CAD几何形状的快速和全自动的笛卡尔啮合解决方案
5. A Cartesian grid method for solving the streamfunction-vorticity equations in irregular geometries [D] . Calhoun, Donna Ann 1999

机译：笛卡尔网格法求解不规则几何中的流函数-涡度方程
6. A Fast and Robust Poisson-Boltzmann Solver Based on Adaptive Cartesian Grids [O] . Alexander H. Boschitsch, Marcia O. Fenley -1

机译：基于自适应笛卡尔栅格的快速和强大的泊松Boltzmann求解器
7. Robust h-adaptive meshing strategy considering exact arbitrary CAD geometries in a Cartesian grid framework [O] . Onofre Marco, Juan José Ródenas, José Manuel Navarro-Jiménez, 2017

机译：考虑笛卡尔电网框架中的确切任意CAD几何形状的强大H - 自适应网格策略
8. Adjoint Sensitivity Computations for an Embedded-Boundary Cartesian Mesh Method and CAD Geometry [R] . Nemec, Marian, Aftosmis,Michael J. 2006

机译：嵌入边界笛卡尔网格法和CaD几何的伴随灵敏度计算

Robust h-adaptive meshing strategy considering exact arbitrary CAD geometries in a Cartesian grid framework

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