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Authors Meißner, S.; Kafka, J.; Isermann, H.; Labisch, S.; Kesel, A.; Eberhardt, O.; Kuolt, H.; Scholz, S.; Kalisch, D.; Müller, S.; Spickenheuer, A.; Kroll, L.
Title Development and evaluation of a novel method for reinforcing additively manufactured polymer structures with continuous fiber composites
Date 14.07.2024
Number 0
Abstract Additively manufactured polymer structures often exhibit strong anisotropies due to their layered composition. Although existing methods in additive manufacturing (AM) for improving the mechanical properties are available, they usually do not eliminate the high degree of structural anisotropy. Existing methods for continuous fiber (cF) reinforcement in AM can significantly increase the mechanical properties in the strand direction, but often do not improve the interlaminar strength between the layers. In addition, it is mostly not possible to deposit cFs three-dimensionally and curved (variable–axial) and, thus, in a path that is suitable for the load case requirements. There is a need for AM methods and design approaches that enable cF reinforcements in a variable–axial way, independently of the AM mounting direction. Therefore, a novel two-stage method is proposed in which the process steps of AM and cF integration are decoupled from each other. This study presents the development and validation of the method. It was first investigated at the specimen level, where a significant improvement in the mechanical properties was achieved compared to unreinforced polymer structures. The Young’s modulus and tensile strength were increased by factors of 9.1 and 2.7, respectively. In addition, the design guidelines were derived based on sample structures, and the feasibility of the method was demonstrated on complex cantilevers.
Publisher MDPI
Wikidata
Citation Journal of Composites Science 8 (2024) 272
DOI https://doi.org/10.3390/jcs8070272
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