Influence of Braid Set Up and Roving Size to Mechanical Properties of Biaxial Carbon Fiber Braids

In contrast to UD-layer laminate braided fabrics show a significant reduction in the mechanical properties. As a main driver the undulation of the fibers is identified. In order to investigate this influence, three different weave styles (diamond, twill 2/2 and twill 4/4) are compared. Two roving sizes are evaluated: Tenax HTS40 12k and SGL, C30 50k. Tensile, compression and interlaminar shear strength tests are performed in two directions: direction 1, corresponding to perpendicular to 45 degrees fiber angle in the specimen, and direction 2, 0/90 degrees fiber angle in the specimen. To fabricate the specimens, textiles with altered braid set ups of both fiber types are produced on tubular core, unwound after a longitudinal cut, stacked and cured with epoxy resin system Hexcel RTM 6. In direction 2 the twill 4x4 has 18% higher tensile strength compared to the diamond braid. Under compression load the difference is more significant. The compression strength of twill 4x4 is 30% higher than the strength of the diamond braid. For the interlaminar properties the undulation has a contrary effect. The diamond braid has the highest shear strength. The smaller roving size shows a positive effect on the strength under compression and tensile load. The 12k twill 4x4 weave has 39% higher tensile strength and 11% higher compression strength than the 50k twill 4x4.