一次性混合RTM零件的流量-速度控制质量优化

IF 1.8 Q3 ENGINEERING, MANUFACTURING Advanced Manufacturing: Polymer & Composites Science Pub Date : 2020-01-02 DOI:10.1080/20550340.2020.1722910
P. Hergan, E. Fauster, Daniela Perkonigg, G. Pinter, R. Schledjewski
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引用次数: 4

摘要

摘要:本文描述了一种基于模型的方法来提高一次性混合树脂转移模塑(OSH-RTM)零件的金属和复合成分之间的粘合质量。为了减少界面中空洞引起的缺陷,需要达到理想的流前速度。通过对废旧碳纤维织物的毛细上升实验,对该理想流锋速度进行了表征。利用压力传感器和达西定律控制充型过程中的流锋速度。因此,进行了树脂体系的粘度表征和预成型的渗透率测量。在模拟汽车侧面碰撞载荷的组件试验台上,对生产的OSH-RTM汽车顶板杆的界面进行了测试。通过t检验,证明了流量-速度控制注射策略比等质量流量注射策略更有优势,因为混合动力部件的界面可传递的最大载荷更高。图形抽象
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Flow-speed-controlled quality optimisation for one-shot-hybrid RTM parts
Abstract This work describes a model-based methodology to improve the bonding quality between the metal and composite constituents of one-shot-hybrid resin transfer moulding (OSH-RTM) parts. In order to reduce void induced defects in the interface an ideal flow front velocity needs to be achieved. This ideal flow front velocity is characterised by capillary rise experiments at the used carbon fibre textile. The flow front velocity during mould filling is controlled by the use of pressure sensors and Darcy’s law. Therefore, viscosity characterisation of the resin system and permeability measurements of the preform were carried out. The interface of the produced OSH-RTM roof bar for a car is tested on a component test rig imitating the load of a side impact at a car. A t-test was carried out to prove that the flow-speed-controlled injection strategy is advantageous compared to a constant mass flow injection by means of a higher maximum load transferable by the interface of the hybrid part. Graphical Abstract
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来源期刊
CiteScore
4.00
自引率
0.00%
发文量
11
审稿时长
16 weeks
期刊最新文献
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