Modeling of the mechanical properties of fused deposition modeling (FDM) printed fiber reinforced thermoplastic composites by asymptotic homogenization

A. Özen, D. Auhl
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引用次数: 2

Abstract

Fused deposition modeling (FDM) is a low-cost additive manufacturing method with moderate tolerances and high design flexibility. Ample studies are being undertaken for modeling the mechanical properties of FDM by using the Finite Element Method (FEM). The process technique of FDM results in anisotropic inner structures that are affected by the chosen manufacturing parameters. Moreover, composite filaments, such as fiber-reinforced polymers, have anisotropy even in filament form before FDM printing. These anisotropic effects are needed to be examined and incorporated for an adequate model. In order to speed up the design stage, we aim to prepare a practical method for simulating the mechanical properties of FDM-printed fiber-reinforced polymer composites. In this work, we computed the homogenized material properties for various fiber lengths, fiber volume percentages, and fiber orientations by asymptotic homogenization at the microscale. Then, mesoscale simulations are carried out through FEM simulations by incorporating the influences of process parameters. In this way, we demonstrate the effect of various micro- and mesostructural features on the homogenized properties step by step.
基于渐近均匀化的熔融沉积(FDM)打印纤维增强热塑性复合材料力学性能建模
熔融沉积建模(FDM)是一种低成本、公差适中、设计灵活性高的增材制造方法。利用有限元法(FEM)对FDM的力学特性进行了大量的建模研究。FDM的加工技术导致了各向异性的内部结构,并受到制造参数的影响。此外,复合长丝,如纤维增强聚合物,即使在FDM打印之前的长丝形式也具有各向异性。需要对这些各向异性效应进行检查,并将其纳入适当的模型。为了加快设计阶段,我们的目标是准备一种实用的方法来模拟fdm打印的纤维增强聚合物复合材料的力学性能。在这项工作中,我们通过微尺度的渐近均质计算了不同纤维长度、纤维体积百分比和纤维取向的均质材料性能。然后,结合工艺参数的影响,通过有限元模拟进行中尺度模拟。通过这种方式,我们逐步证明了各种微观和细观结构特征对均匀化性能的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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