Fast layer fiber orientation optimization method for continuous fiber-reinforced material extrusion process

Materials Science in Additive Manufacturing Pub Date : 2023-03-17 DOI:10.36922/msam.49
Valentin Marchal, Yicha Zhang, N. Labed, R. Lachat, F. Peyraut
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Abstract

Material extrusion (MEX) is an additive manufacturing process that uses thermoplastic layer-by-layer building. The use of continuous fiber-reinforced filament enhances mechanical properties, making MEX suitable for use in aerospace, automotive, and robotics industries. This study proposes a laminate optimization method to improve the stiffness of printed parts with low computing time. The 2D stress-flow-based method optimizes fiber’s orientation for each layer in the stacking direction, giving results for a 3D part optimization in a few minutes. Developed with Ansys Parametric Design Language, the computation tool was tested on printed wrenches, resulting in an 18% increase in stiffness. The proposed method is applicable to any printable shape.
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连续纤维增强材料挤压过程中快速层纤维取向优化方法
材料挤压(MEX)是一种使用热塑性材料逐层构建的增材制造工艺。连续纤维增强长丝的使用提高了机械性能,使MEX适用于航空航天,汽车和机器人工业。本文提出了一种以低计算时间提高打印件刚度的层压板优化方法。基于二维应力流的方法在堆叠方向上优化了每层纤维的方向,在几分钟内就能得到3D零件的优化结果。使用Ansys参数化设计语言开发的计算工具在打印扳手上进行了测试,结果显示刚度提高了18%。所提出的方法适用于任何可打印的形状。
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Materials Science in Additive Manufacturing
Materials Science in Additive Manufacturing
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