New Approaches to 3D Non-Crimp Fabric Manufacturing

L. Hahn, Paul Penzel, Danny Friese, Marina Stümpel, Harald Michler, B. Beckmann, M. Curbach, C. Cherif
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Abstract

Textile reinforcements have outstanding load-bearing capabilities due to the excellent tensile properties of high performance multifilament yarns (e.g. carbon fibers). However, in order to take full advantage of their high potential, it is necessary to ensure that the filaments run in a straight line. In order to guarantee this straight filament course, the highly efficient multiaxial warp knitting process is used for the production of 2D non-crimp fabrics (NCF) as textile preforms. In various industrial applications, most structures have complex 3D geometries. Therefore, the 2D textile needs to be shaped for reinforcement, which often results in a rearrangement of the filament orientation. Consequently, the 3D shaping process has to be taken into account during the textile production or in the shaping process itself in order to guarantee the highest mechanical properties. Using the example of lattice girders for concrete reinforcement, a new approach for the fabrication of 3D textile lattice girders in a continous shaping process is presented. The results of the production tests of the developed technology approach show no apparent filament damage and exact roving orientation with no inadvertent deflection, compression or bulging, indicating a precise and gentle shaping process. The developed technology contributes to the future reduction of the production costs of 3D textile reinforcements.
三维无皱织物制造新方法
由于高性能多丝纱线(如碳纤维)具有优异的拉伸性能,因此纺织加固材料具有出色的承重能力。然而,为了充分发挥其巨大潜力,有必要确保丝线的直线运行。为了保证长丝的直线运行,高效的多轴经编工艺被用于生产二维非卷曲织物 (NCF),作为纺织品的预制件。在各种工业应用中,大多数结构都具有复杂的三维几何形状。因此,需要对二维织物进行塑形加固,这通常会导致长丝方向的重新排列。因此,在纺织品生产过程中或在成型过程中必须考虑到三维成型工艺,以保证最高的机械性能。本文以用于混凝土加固的格构梁为例,介绍了一种在连续成型工艺中制造三维纺织格构梁的新方法。所开发技术方法的生产测试结果表明,没有明显的长丝损伤,粗纱取向准确,没有意外变形、压缩或隆起,表明成型过程精确而温和。所开发的技术有助于今后降低三维纺织加固材料的生产成本。
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CiteScore
1.20
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