Prediction of Static and Dynamic Mechanical Properties of GFRTP Product through Injection Molding

机译：通过注塑成型预测GFRTP产品的静态和动态力学性能

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This paper aims at evaluating the prediction accuracy of macroscopic static and dynamic mechanical properties, including damping properties, of glass fiber reinforced thermo plastics (GFRTP) obtained via computer simulations. The prediction procedure is based on the Eshelby-Mori-Tanaka approach using fiber orientation tensor. The prediction accuracy of mechanical properties depends on the fiber orientation tensor. In this paper, we compare that prediction accuracies obtained using measured fiber orientation tensor and using simulated fiber orientation tensor by resin flow analysis. Additionally, we propose a linearized damping model based on the Eshelby-Mori-Tanaka approach and modal strain energy method to predict damping property, as well as a method for evaluating the contribution of the elastic modulus in order to quantitatively comprehend the anisotropic characteristics of GFRTP.

机译：本文旨在评估通过计算机模拟获得的宏观静态和动态机械性能（包括阻尼性能）的预测准确性，包括阻尼性能，包括计算机模拟所获得的玻璃纤维增强热塑性塑料（GFRTP）。预测程序基于使用纤维取向张量的eShelby-mori-tanaka方法。机械性能的预测精度取决于纤维取向张量。在本文中，我们比较使用测量的纤维取向张量和通过树脂流动分析使用模拟纤维取向张量获得的预测精度。此外，我们提出了一种基于eShelby-Mori-Tanaka方法的线性化阻尼模型和模态应变能量方法来预测阻尼性，以及用于评估弹性模量的贡献的方法，以便定量地理解GFRTP的各向异性特征。

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《International Conference on Machining, Materials and Mechanical Technologies》|2017年|xi265p|共6页
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Kohei Furuya; Makoto Nikawa; Nguyen Ba Tuyen;
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中图分类 TB3-532;
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GFRTP; Injection molding; Eshelby-Mori-Tanaka; Resin flow analysis; Damping ratio.;

机译：GFRTP;注塑成型;eShelby-mori-tanaka;树脂流动分析;阻尼比。;

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Prediction of Static and Dynamic Mechanical Properties of GFRTP Product through Injection Molding

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