A dry aligning method of discontinuous carbon fibers and improvement of mechanical properties of discontinuous fiber composites

IF 1.8 Q3 ENGINEERING, MANUFACTURING Advanced Manufacturing: Polymer & Composites Science Pub Date : 2016-10-01 DOI:10.1080/20550340.2016.1265693

T. Miyake, Satoshi Imaeda

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引用次数: 16

Abstract

Abstract A novel method for dry alignment of discontinuous carbon fibers, such as recycled carbon fibers was developed by the modification of the yarn manufacturing process. In order to achieve high production rate and application for long fibers, fluffy synthetic fibers were used as the suspending and carrying media for discontinuous carbon fibers instead of a fluid medium generally used. Using the mechanical interaction in the dry alignment method, a mixture of 200 mm long discontinuous carbon fibers and fluffy polypropylene fibers was fabricated into an aligned and homogeneously comingled sliver by drafting. Then, the sliver was spun into yarn and an aligned yarn preform was obtained. Composites, with approximately 70% of the fibers aligned within an angle of ±14° with respect to the drafting direction, were successfully produced from the preform of the aligned spun yarn. The tensile modulus of the composite specimen along the aligned direction was about 10 times larger than that along the transverse direction, and about 3.5 times larger than that for the specimens obtained from the same yarn with random orientation.

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一种不连续碳纤维的干式配准方法及改进不连续纤维复合材料的力学性能

摘要通过对再生碳纤维制纱工艺的改进，提出了一种对不连续碳纤维进行干法对准的新方法。为了实现长纤维的高产率和应用，采用蓬松合成纤维代替一般使用的流体介质作为不连续碳纤维的悬浮和承载介质。利用干法排列中的力学相互作用，将200 mm长不连续碳纤维与蓬松聚丙烯纤维通过牵伸制成排列均匀混纺条子。然后，将条子纺成纱，得到了对准成纱预坯。复合材料，大约70%的纤维排列在±14°的角度，相对于牵伸方向，成功地从对齐的纺纱预成型。复合材料试样沿排列方向的拉伸模量约为横向拉伸模量的10倍，约为同一纱线随机方向拉伸模量的3.5倍。

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