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Abstract
An experimental study have been performed to investigate the uniaxial tensile stress-strain response on the 3D angle interlock (3DAI) woven fabric composite. The tensile analysis were examined based on different woven fabric set-up parameter of draw-in plan ; pointed (DRW 1), broken (DRW 2), broken mirror (DRW 3), and straight (DRW 4). Meanwhile, the woven fabric composite were produced based on 22 and 25 pick.cm-1 of weft densities. The outcomes produced shown that woven composite sample with 25 pick.cm-1 on DRW 4 projected the highest stress response, 113 MPa. Extensive review indicated that DRW 1 and 4 gave better tensile stress-strain response than the other counterpart.
Highlights
The 3D angle interlock (3DAI) woven fabric has enticed attention from numerous researchers to explore the potential of mechanical behavior towards certain end-use application requirements
Researchers have suggested that physical properties such as fabric weft density and type of weave structure plays a significant contribution towards the tensile strength outcomes [8, 10, 12, 13-15] of textile woven fabric
This outcomes portrayed that 2D plain weave consists of higher yarn interlacement that 3D orthogonal which resulted to low tensile strength
Summary
Textile fabric is one of the textile material which can be manufactured either by using weaving, knitting or non-woven techniques. 3D woven can be categorized into several types of structures; layer-to-layer, multilayer, angle-interlock, and orthogonal. Researchers have suggested that physical properties such as fabric weft density and type of weave structure plays a significant contribution towards the tensile strength outcomes [8, 10, 12, 13-15] of textile woven fabric. A variety of textile weave structure resulted to different yarn interlacement point. S. Dai et al [8] and J.S Jones et al [10] on the studies of the weave architectural factor towards the mechanical performance revealed that different type of weave structure produced variation sets of yarn interlacement. This paper intended to investigate the uniaxial tensile stress-strain response on the 3D angle interlock woven fabric composite based on different set of draw-in plan variables. The mixture was dispersed evenly on the woven composite sample
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