Development of 3D woven cellular structures for adaptive composites based on thermoplastic hybrid yarns

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Abstract

Flexible cellular 3D structures with structure-inherent compliance made of fiber-reinforced composites have repeatedly aroused the interest of international research groups. Such structures offer the possibility to meet the increasing demand for flexible and adaptive structures. The aim of this paper is the development of cellular 3D structures based on weaving technology. Considering the desired geometry of the 3D structure, algorithms are developed for the formation of geometry through tissue sub-areas. Subsequently, these sub-areas are unwound into the weaving level and appropriate weave patterns are developed. A particular challenge is the realization of compliant mechanisms in the woven fabric. This can be achieved either by combining different materials or, in particular, by implementing large stiffness gradients by means of varying the woven fabrics thickness, whereas differences in wall thickness have to be realized with a factor of 1:10. A manufacturing technology based on the weaving process is developed for the realization of the developed 3D cellular structures. To this end, solutions for the processing of hybrid thermoplastic materials (e.g. tapes), solutions for the integration of inlays in the weaving process (thickening of partial areas), and solutions for tissue retraction, as well as for the fabric pull-off (linear pull-off system) are being developed. In this way, woven cellular 3D structures with woven outer layers and woven joint areas (compliance) can be realized in a single process step and are subsequently characterized.

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Sennewald, C., Vorhof, M., Schegner, P., Hoffmann, G., Cherif, C., Boblenz, J., … Hühne, C. (2018). Development of 3D woven cellular structures for adaptive composites based on thermoplastic hybrid yarns. In IOP Conference Series: Materials Science and Engineering (Vol. 369). Institute of Physics Publishing. https://doi.org/10.1088/1757-899X/369/1/012041

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