Laser-powered tape placement process – simulation and optimization

IF 1.8 Q3 ENGINEERING, MANUFACTURING Advanced Manufacturing: Polymer & Composites Science Pub Date : 2015-07-03 DOI:10.1080/20550340.2015.1114798

D. Maurer, P. Mitschang

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引用次数: 24

Abstract

The laser-assisted thermoplastic tape placement process for unidirectional carbon fiber reinforced polyetheretherketon (CF PEEK) tapes was investigated. In this process, tapes are melted, laid-up on a tool, and consolidated under a roller. As an out of autoclave process, thermoplastic tape placement has high potential for aerospace manufacturing industry. To optimize laser settings for high efficiency and reproducibility, a thermal simulation was created. Process windows are calculated based on critical process temperatures. A parameter study was conducted to investigate the influence of lay-up speed and laser settings, especially laser beam height and angle of impact, on the process. For different lay-up speeds, optimum values and limits of laser settings are found to gain autoclave quality with high material output and high reproducibility. Peel specimens have been produced to verify simulated optimum parameters, which showed good agreement. Economical potential of thermoplastic tape placement was shown in a direct comparison to thermoset tape placement. Graphical Abstract

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激光驱动的胶带放置过程-模拟和优化

研究了单向碳纤维增强聚醚醚酮(CF PEEK)带的激光辅助热塑性胶带贴装工艺。在这个过程中，磁带被熔化，铺在工具上，然后在滚筒下固化。热塑性胶带作为一种非热压灭菌工艺，在航空航天制造业中具有很大的应用潜力。为了优化激光设置以获得高效率和再现性，创建了热模拟。过程窗口是根据临界过程温度计算的。研究了铺层速度和激光设置，特别是激光束高度和冲击角度对铺层过程的影响。在不同的铺层速度下，找到最佳的激光设置值和限制，以获得高材料输出和高再现性的高压釜质量。制作了剥皮试样来验证模拟的最优参数，结果吻合较好。与热固性胶带放置的直接比较显示了热塑性胶带放置的经济潜力。图形抽象

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