Topology Design of 3D Printing Continuous Fiber-Reinforced Structure Considering Strength and Non-Equidistant Fiber

Feng Zhang, Bowen Li, Wuzhan Wo, Xiaobin Hu, Min Chang, Peng Jin

科研成果: 期刊稿件文章同行评审

7 引用 (Scopus)

摘要

The utilization of continuous fiber-reinforced composites (CFRC) technology in 3D printing opens up new avenues for designing composite products. This paper introduces a novel parallel topology optimization framework tailored for CFRC 3D printing. The framework incorporates strength constraints and uses topology, fiber volume fraction, and fiber orientation as essential design variables. A fiber material interpolation model for multiple design variables is proposed based on the law of mixtures for composites. Bidirectional evolutionary structural optimization and solid isotropic material with penalization are used for optimization of topology and fiber volume fraction, respectively, while the fiber orientation herein is determined using the principal stress method. Strength constraint is considered according to Tsai–Hill criterion. To match manufacturing process demands, a nonequidistant continuous fiber path optimization method based on Hermite interpolation function is introduced. The optimization framework introduced herein is successfully used for optimal design of L-shaped beam, cantilever beam, and Michell beam. It is concluded that the design space of composite structure can be further broadened using the proposed method. To validate the viability of the proposed optimization method and fiber path design approach, the optimization results are printed using a custom-developed continuous fiber 3D printer.

源语言英语
文章编号2301340
期刊Advanced Engineering Materials
26
1
DOI
出版状态已出版 - 1月 2024

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