2020
DOI: 10.1016/j.compositesa.2020.106083
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Experimental investigation of vegetal and synthetic fabrics cohesion in order to prevent the tow sliding defect via frictional and pull-out test

Abstract: Experimental investigation of vegetal and synthetic fabrics cohesion in order to prevent the tow sliding defect via frictional and pull-out test. (2020) Composites Part A: Applied Science and Manufacturing.

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Cited by 9 publications
(3 citation statements)
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“…This result will also be used as real geometry input for forming simulations at the mesoscopic scale in order to quantify the biaxial tensile property of a fabric, its shear behavior Lomov et al (2008) together with a coupled behavior that is difficult to identify experimentally Nosrat-Nezami et al (2014); Kashani et al (2016). Additionally, the pull-out test proposed in Salem et al (2020) could be used to characterize the bending behavior of a tow within a fabric.…”
Section: Weavingmentioning
confidence: 99%
See 1 more Smart Citation
“…This result will also be used as real geometry input for forming simulations at the mesoscopic scale in order to quantify the biaxial tensile property of a fabric, its shear behavior Lomov et al (2008) together with a coupled behavior that is difficult to identify experimentally Nosrat-Nezami et al (2014); Kashani et al (2016). Additionally, the pull-out test proposed in Salem et al (2020) could be used to characterize the bending behavior of a tow within a fabric.…”
Section: Weavingmentioning
confidence: 99%
“…The proximity of these two scales makes if hard to capture certain phenomena occurring in the mesoscopic domain without a fine scale description Boisse et al (2016). Among these phenomena can be mentioned deweaving Allaoui et al (2015); Salem et al (2020) or curl growth Tephany et al (2016); Salem et al (2019), and as a result numerous strategies have been proposed to perform simulations in the mesoscopic domain. Another reason for mesoscopic scale simulation is the need to harvest macroscopic models through virtual testing.…”
mentioning
confidence: 99%
“…M.M. Salem et al [17] investigated the influence of the cohesion of different woven fabrics on the reduction or prevention of the appearance of sliding defects of some vegetal and synthetic fabrics. On the other hand, Labanieh et al [18] held an experimental and analytical research to study the mechanisms of appearance of gapping defects during the preforming of a woven carbon fabric by a hemispheric shape.…”
Section: Introductionmentioning
confidence: 99%