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Parametric study of piezoresistive structures in continuous fiber reinforced additive manufacturing

ORCID
0000-0003-0122-1959
Affiliation/Institute
Institut für Konstruktionstechnik
Heitkamp, Tim;
GND
1239362986
ORCID
0000-0002-3873-3184
Affiliation/Institute
Institut für Konstruktionstechnik
Goutier, Marijn;
GND
1180416716
Affiliation/Institute
Institut für Konstruktionstechnik
Hilbig, Karl; Girnth, Simon;
GND
12994324X
Waldt, Nils; Klawitter, Günter;
GND
1139782940
ORCID
0000-0003-4687-681X
Affiliation/Institute
Institut für Konstruktionstechnik
Vietor, Thomas

Recent advancements in fiber reinforced additive manufacturing leverage the piezoresistivity of continuous carbon fibers. This effect enables the fabrication of structural components with inherent piezoresistive properties suitable for load measurement or structural monitoring. These are achieved without necessitating additional manufacturing or assembly procedures. However, there remain unexplored variables within the domain of continuous fiber-reinforced additive manufacturing. Crucially, the roles of fiber curvature radii and sensing fiber bundle counts have yet to be comprehensively addressed. Additionally, the compression-sensitive nature of printed carbon fiber-reinforced specimens remains a largely unexplored research area. To address these gaps, this study presents experimental analyses on tensile and three-point flexural specimens incorporating sensing carbon fiber strands. All specimens were fabricated with three distinct curvature radii. For the tensile specimens, the number of layers was also varied. Sensing fiber bundles were embedded on both tensile and compression sides of the flexural specimens. Mechanical testing revealed a linear-elastic behavior in the specimens. It was observed that carbon fibers supported the majority of the load, leading to brittle fractures. The resistance measurements showed a dependence on both the number of sensing layers and the radius of curvature, and exhibited a slight decreasing trend in the cyclic tests. Compared with the sensors subjected to tensile stress, the sensors embedded on the compression side showed a lower gauge factor.

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