Numerical simulation of the variation of fiber orientation distribution during flow molding of Ultra High Performance Cementitious Composites (UHPCC)

Su-Tae Kang; Jin-Keun Kim

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Numerical simulation of the variation of fiber orientation distribution during flow molding of Ultra High Performance Cementitious Composites (UHPCC)

机译：超高性能水泥基复合材料（UHPCC）流动成型过程中纤维取向分布变化的数值模拟

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In this paper, the variation of the fiber orientation distribution along the flow of fresh UHPCC was studied. In order to describe the rotational motion of a single fiber, Jeffery's equation was adopted, in which the interaction among fibers is neglected. Two cases of flow patterns were considered: shear flow and radial flow. Starting with a three-dimensional random distribution of fibers, the fiber orientation distribution along the flow distance was simulated. These results reveal that fibers gradually become more parallel (in the case of shear flow) and perpendicular (in the case of radial flow) to the flow direction as the flow distance increases. This approach will be useful to predict flow-dependent tensile behavior considering the change of fiber orientation distribution.

机译：本文研究了纤维取向分布随新鲜UHPCC流动的变化。为了描述单根纤维的旋转运动，采用了Jeffery方程，其中忽略了纤维之间的相互作用。考虑了两种流动模式：剪切流和径向流。从纤维的三维随机分布开始，模拟了沿流动距离的纤维取向分布。这些结果表明，随着流动距离的增加，纤维逐渐变得平行于流动方向（在剪切流动的情况下）和垂直于流动方向（在径向流动的情况下）。考虑到纤维取向分布的变化，这种方法对于预测与流动有关的拉伸行为将是有用的。

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来源
《Cement & concrete composites 》 |2012年第2期| 共10页
作者
Su-Tae Kang; Jin-Keun Kim;
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正文语种 eng
中图分类复合材料 ;
关键词
Fiber orientation; Flow molding; Numerical analysis; High performance concrete; Shear flow; Radial flow;

机译：纤维取向;流动模塑;数值分析;高性能混凝土;剪切流;径向流;

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1. Numerical simulation of the variation of fiber orientation distribution during flow molding of Ultra High Performance Cementitious Composites (UHPCC) [J] . Su-Tae Kang, Jin-Keun Kim Cement & concrete composites . 2012 ,第2期

机译：超高性能水泥基复合材料（UHPCC）流动成型过程中纤维取向分布变化的数值模拟
2. Numerical study on the residual axial capacity of ultra high performance cementitious composite filled steel tube (UHPCC-FST) column under contact explosion [J] . Wang Z. G., Wu H., Fang Q., Thin-Walled Structures . 2020 ,第Auga期

机译：爆炸下超高性能水泥复合填充钢管（UHPCC-FST）柱残留轴向容量的数值研究
3. The variation of flow-dependent tensile behavior in radial flow dominant placing of Ultra High Performance Fiber Reinforced Cementitious Composites (UHPFRCC) [J] . Seung Hee Kwon, Su-Tae Kang, Bang Yeon Lee, Construction and Building Materials . 2012 ,第期

机译：超高性能纤维增强水泥基复合材料（UHPFRCC）在径向流占主导地位的流动相关拉伸行为的变化
4. Coupled Flow and Fiber Orientation Analysis for 3D Injection Molding Simulations of Fiber Composites [C] . Huan-Chang Tseng, Tung-Huan Su International Conference of the Polymer Processing Society . 2019

机译：纤维复合材料3D注塑模拟的耦合流量和纤维取向分析
5. Modeling of localized deformation in high and ultra-high performance fiber reinforced cementitious composites. [D] . Miletic, Marta. 2016

机译：高性能和超高性能纤维增强水泥基复合材料的局部变形建模。
6. Erratum: Myoung S.C.; Su-Tae K.; Bang Y.L.; Kyeong-Taek K.; Gum-Sung R. Improvement in Predicting the Post-Cracking Tensile Behavior of Ultra-High Performance Cementitious Composites Based on Fiber Orientation Distribution. Materials 2016 9 829 [O] . Myoung Sung Choi, Su-Tae Kang, Bang Yeon Lee, 2017

机译：勘误表：MyoungS.C .； Su-TaeK .； BangY.L .; Kyeong-Taek； Gum-SungR.基于纤维取向分布预测超高性能水泥基复合材料开裂后拉伸行为的改进。材料20169829
7. Erratum: Myoung, S.C.; Su-Tae, K.; Bang, Y.L.; Kyeong-Taek, K.; Gum-Sung, R. Improvement in Predicting the Post-Cracking Tensile Behavior of Ultra-High Performance Cementitious Composites Based on Fiber Orientation Distribution. Materials 2016, 9, 829 [O] . Myoung Sung Choi, Su-Tae Kang, Bang Yeon Lee, 2017

机译：勘误：myoung，s.C。; su-Tae，K。; Bang，Y.L。; Kyeong-Taek，K。; Gum-sung，R。基于纤维取向分布预测超高性能水泥基复合材料开裂后拉伸性能的改进。材料2016,9,829

Numerical simulation of the variation of fiber orientation distribution during flow molding of Ultra High Performance Cementitious Composites (UHPCC)

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