热固性纳米石墨烯包合物的反应增材制造模拟

IF 1 Q4 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Journal of Multiscale Modelling Pub Date : 2020-09-01 DOI:10.1142/s1756973720500043

F. Abdi, H. Baid, N. Moazami, J. Batten, Dade Huang, Amirhossein Eftekharian, R. Hajiha, K. Nikbin

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引用次数: 2

摘要

在树脂中石墨烯血小板包裹体的3D打印过程中，由于热载荷产生的残余应力会导致最终零件起皱/变形。本文提出了一种多尺度模拟方法来减小包体与树脂界面的残余热应力。利用集成的多尺度建模方法进行材料表征:(a)纳米建模检查缺陷的影响，如空洞形状/大小/分布，血小板方向等);(b)微观力学检查组分(血小板/基质/间相，残余应力);(c)宏观力学检查分层和脱粘。去均质化多尺度建模方法为有限元模型(FEM)提供了详细的刚度/强度，用于全面的结构/热渐进失效分析，以解决起皱/变形、损伤和分层演变等问题。

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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Reactive Additive Manufacturing Simulation of Thermoset Nano Graphene Inclusion

During the 3D printing of graphene platelet inclusion in resin, residual stresses due to thermal loading can cause wrinkle/distortion of final part. This paper presents a multi-scale modeling approach to reduce the residual thermal stress at the interphase between inclusion and resin. Material characterization is performed utilizing an integrated multi-scale modeling approach: (a) nano modeling examines effect of defects such as void shape/size/distribution, platelet orientation, etc.); (b) micro-mechanics examines constituents (platelet/matrix/interphase, residual stress); (c) macro-mechanics examines the delamination and debonding. De-homogenized multi-scale modeling approach provides detailed stiffness/strength to Finite Element Model (FEM) for full structural/thermal progressive failure analysis to address wrinkling/distortion, damage and delamination evolution via cohesive traction separation.

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来源期刊

Journal of Multiscale Modelling MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-

CiteScore

2.70

自引率

0.00%

发文量