Co-consolidation of CF/PEEK tape-preforms and CF/PEEK organo sheets to manufacture reinforcements in stamp-forming process

IF 1.8 Q3 ENGINEERING, MANUFACTURING Advanced Manufacturing: Polymer & Composites Science Pub Date : 2019-10-02 DOI:10.1080/20550340.2019.1673961

J. Weber, J. Schlimbach

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引用次数: 8

Abstract

Abstract Co-consolidation is considered one effective joining method to allow novel types of integral structures to be manufactured. In this study, carbon fiber reinforced Polyether-Ether-Ketone partially consolidated tape preforms were co-consolidated with carbon fiber reinforced Polyether-Ether-Ketone organo sheets in stamp-forming process. Interlaminar bond quality of both joining partners is validated in double cantilever beam test. Results exhibit average interlaminar fracture toughness of 2.54 kJ/m2 for stamp-forming specimen, which exceeds interlaminar fracture toughness of reference samples manufactured in autoclave being 1.79 kJ/m2. Further examinations on specimen morphology and mechanical properties indicate distinct assignments to process characteristic cooling rates, which coincides with studies from literature. Accordingly, high cooling rates—as evident in stamp-forming process—are allocated to high toughness, low crystallinity and low bending modulus, causing high interlaminar fracture toughness. Investigations on laminate quality reveal maximum void content of 1.58%. Graphical Abstract

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CF/PEEK胶带预成形件与CF/PEEK有机片材在冲压成形过程中的共固结

共固结被认为是制造新型整体结构的一种有效连接方法。在本研究中，碳纤维增强聚醚酮部分固结带预制件与碳纤维增强聚醚酮有机片材在冲压成形过程中共固结。通过双悬臂梁试验，验证了两连接件的层间粘结质量。结果表明，冲压成形试样的平均层间断裂韧性为2.54 kJ/m2，超过了热压罐制造的参考试样的层间断裂韧性1.79 kJ/m2。对试样形貌和力学性能的进一步检查表明，不同的过程特征冷却速率分配，这与文献研究相吻合。因此，在冲压成形过程中，高冷却速率被分配给高韧性、低结晶度和低弯曲模量，从而产生高层间断裂韧性。对层压板质量的研究表明，最大孔隙含量为1.58%。图形抽象

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