Fiber Orientation and Concentration Distribution in Flow of a Concentrated Suspension through a Slit Channel Containing a Circular Obstacle

Sen'i Kikai Gakkaishi (journal of The Textile Machinery Society of Japan) Pub Date : 2002-01-25 DOI:10.4188/TRANSJTMSJ.55.T7

K. Yasuda, K. Nakamura, N. Mori

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Abstract

Distributions of fiber orientation and fiber concentration were measured in the flow of a concentrated fiber suspension (CFS) and a dilute one (DFS) through a slit channel containing a cylinder obstacle. In the present paper, those in the flow are quantitatively estimated by direct observation of fibers in the flow of a concentrated suspension, while those in injection molded parts of fiber-reinforced plastics have been studied qualitatively by many researchers. For the CFS, some fibers rotate in an expansion part between the channel wall and the obstacle and the degree of orientation becomes low. The preferred direction of fibers fluctuates in the downstream region of the expansion part. However, almost all fibers near the centerline downstream of the obstacle orient perfectly along the flow direction. This fiber orientation is induced by an elongational flow near the centerline. Furthermore, the fiber concentration for the DFS shows a flat distribution except near the channel wall, while that for the CFS monotonically increases from the wall toward the centerline.

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含圆形障碍物的狭缝通道中浓缩悬浮液的纤维取向和浓度分布

研究了浓纤维悬浮液(CFS)和稀纤维悬浮液(DFS)在含圆柱体障碍物的狭缝通道中流动时纤维取向和浓度的分布。在本文中，流动中的这些是通过直接观察集中悬浮液流动中的纤维来定量估计的，而纤维增强塑料注塑件中的这些已经被许多研究者定性研究了。对于CFS，一些纤维在通道壁和障碍物之间的膨胀部分旋转，取向程度变低。纤维的优选方向在膨胀部分的下游区域波动。然而，几乎所有靠近障碍物下游中心线的纤维都完全沿着流动方向定向。这种纤维取向是由靠近中心线的拉长流动引起的。此外，除通道壁附近外，DFS的光纤浓度呈平坦分布，而CFS的光纤浓度从通道壁向中心线方向单调增加。

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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Sen'i Kikai Gakkaishi (journal of The Textile Machinery Society of Japan)

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