Effect of radial stress relaxation on fibre stress in filament winding of thick composites

Evan A. Kempner, H.Thomas Hahn
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引用次数: 18

Abstract

During filament winding of thick cylinders, fibre wrinkling often occurs which severely decreases compressive strength. To eliminate fibre wrinkling, appropriate processing conditions must be found. Fibre migration and stress relaxation due to resin flow are generally considered the most important factors affecting fibre buckling. Therefore, the effect of stress relaxation on fibre wrinkling during the filament winding process was investigated. To study the stress development during filament winding of thick cylinders, experiments were carried out using graphite/epoxy prepreg tows as well as dry graphite fibre. Cylinders of approximately 12 mm thickness were hoop wound on a 50.8 mm diameter aluminium mandrel. Winding tensions ranged from 13 to 34 N and winding speed was constant. A foil-type pressure sensor was applied on the mandrel to monitor the interface pressure throughout winding and storage of the cylinder. Significant stress relaxation was found to occur during winding with prepreg tow. Mandrel pressure increased over the winding of the first eight layers or so. However, between the winding of one layer and the next, mandrel pressure dropped quickly. Also, it began to decrease after reaching a maximum value. A stress relaxation analysis was carried out to determine the stress in the cylinders during winding. Several parameters were not known a priori and had to be inferred from the data. Stress distributions following winding were calculated for each case. The radial stress in prepreg wound cylinders was found to relax nearly to zero in the inner part of the tubes. Compressive circumferential stresses occurred throughout each of the cylinders. However, they reached greater magnitudes in the dry wound cylinders due to very low radial moduli. No fibre wrinkling was evident in any of the wound cylinders.

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厚复合材料绕丝过程中径向应力松弛对纤维应力的影响
在厚筒绕丝过程中,纤维起皱现象经常发生,严重降低了纤维的抗压强度。为了消除纤维起皱,必须找到合适的加工条件。纤维迁移和树脂流动引起的应力松弛通常被认为是影响纤维屈曲的最重要因素。因此,研究了应力松弛对纤维缠绕过程中起皱的影响。为了研究厚筒缠绕过程中的应力发展,采用石墨/环氧预浸料束和干燥石墨纤维进行了实验。大约12毫米厚的圆筒绕在50.8毫米直径的铝芯轴上。卷绕张力范围为13 ~ 34牛,卷绕速度恒定。在芯轴上安装了箔片式压力传感器,用于监测气缸在卷绕和贮存过程中的界面压力。预浸料束缠绕过程中出现了明显的应力松弛现象。卷绕前八层左右芯轴压力增大。然而,在一层卷绕和下一层卷绕之间,心轴压力迅速下降。在达到最大值后开始减小。通过应力松弛分析确定了卷绕过程中气缸内的应力。有几个参数是事先不知道的,必须从数据中推断出来。计算了每种情况下绕组后的应力分布。在预浸料缠绕圆筒内,径向应力在管内松弛到接近零。压周向应力发生在每个圆柱体中。然而,由于径向模量非常低,它们在干缠绕圆柱体中达到更大的量级。在任何缠绕的钢瓶中都没有明显的纤维起皱。
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