Fiber Angle Optimization and Tow Path Planning on 3D Curved Surfaces Using the Multiple Mesh Approach

American Society for Composites 2018 Pub Date : 2018-11-07 DOI:10.12783/ASC33/26010
Floris-Jan van Zanten, Caleb R. Pupo, D. Barazanchy, M. Tooren
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引用次数: 1

Abstract

Variable stiffness composites are composite structures in which some of the plies are steered, the tow paths are allowed to change orientation within the ply. Finding the optimal fiber orientation, and corresponding tow paths, is possible through the lamination parameters framework and the manufacturing finite element mesh framework (MFEM). In this article the implementation of the 2D MFEM framework is extended to incorporate the optimization of 3D shell structures. Both the optimization methodology and the tow path planner for 3D surfaces are presented and discussed here.
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基于多网格法的三维曲面纤维角度优化与拖径规划
变刚度复合材料是复合材料结构,其中一些层是定向的,两个路径被允许改变层内的方向。通过层压参数框架和制造有限元网格框架(MFEM)可以找到最佳的纤维取向和相应的路径。本文将二维有限元框架的实现扩展到包含三维壳结构的优化。本文提出并讨论了三维曲面的优化方法和拖径规划器。
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American Society for Composites 2018
American Society for Composites 2018
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