Stress transfer of single yarn drawing in soft fabric studied by micro Raman spectroscopy

Qin, Fuyong; Lei, Zhenkun; Ma, Yu; Fang, Qingchao; Bai, Ruixiang; Qiu, Wei; Yan, Cheng; Yang, Feng

doi:10.1016/j.compositesa.2018.06.002

Cited by 15 publications

(7 citation statements)

References 20 publications

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“…As the selected yarn is pulled, a portion of the yarn near the entry starts to uncrimp and elongate, whereas the end of the yarn remains crimped. 39 As mentioned before in order to minimize the effect of crimp on the yarn pull-out behavior, a 0.1 N preload was applied. Furthermore, the lack of changing load-displacement behavior of UEG at different rates may show the uncrimping behavior of considered yarn during the tests.…”

Section: Resultsmentioning

confidence: 99%

Stab and yarn pull-out resistance of shear thickening fluids (STFs)/E-glass based on PEG modification and modeling yarn pull-out behavior with artificial intelligence

Hai

Alhomayani

Ajam

et al. 2023

Journal of Composite Materials

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Impregnating fabrics with shear thickening fluid (STF) improves impact resistance. In this study modification of polyethylene glycol (PEG 200) was carried out to enhance the thickening behavior of STF. The rheological analysis shows tunned STFs by PEG modification with glutaric acid and oxalic acid increase the maximum viscosity by about 10.33 and 3.28 folds with respect to unmodified STF. Additionally, the alternations of a liquid dispersion medium (PEG) led to higher chain length in STFs, representing superior interaction between media and particles by profuse H-bonding. The results confirmed that increasing the molecular length of PEG-based on STF caused a significant improvement in the knife and spike stabbing impact resistance, quasi-static, and yarn pull-out performance of the neat fabric. In addition, it was realized, by increasing impact velocity the energy absorption ability of STF-treated fabric composite increases. Additionally, a regression analysis using artificial intelligence was applied to study the effect of the pull-out rate on the mechanical response of different materials. Using a third-order polynomial for AI regression model, it turned out that while the pull-out rate has the least influence on untreated E-glass fabrics (UEG) response, for other materials, the behavior changes significantly by increasing the rate from 100 to 400 mm/min.

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Section: Resultsmentioning

confidence: 99%

Stab and yarn pull-out resistance of shear thickening fluids (STFs)/E-glass based on PEG modification and modeling yarn pull-out behavior with artificial intelligence

Hai

Alhomayani

Ajam

et al. 2023

Journal of Composite Materials

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“…This transfer of the load among strands/ yarns leads to mutual movements within the fabric, resulting in deformation of the yarns and slip between yarns. 27 Once this load exceeds the fiber strength, the fibers fail (as shown in III) and may also result in the failure of the composites.…”

Section: Mechanical Propertiesmentioning

confidence: 99%

Static and dynamic mechanical behavior of intra‐hybrid jute/sisal‐reinforced polypropylene composites: Effect of stacking sequence

Gairola,

Chaitanya,

Kaushik

et al. 2024

Polymer Composites

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In the current research investigation, jute and sisal intra‐hybrid woven fabric were specifically tailored to maintain jute and sisal in weft and warp directions, respectively. Jute sisal intra‐hybrid composites were prepared with four layers of intra‐hybrid woven fibers using a compression molding technique. Physical, mechanical (static and dynamic), and thermal stability behavior were investigated, and their structure–property relationship has been established. The obtained results showed that jute‐sisal cross‐interplay‐based hybrid composites recorded maximum tensile and flexural modulus values with minimum anisotropy. It can be concluded from the current experimental investigation that weft/warp orientation and stacking sequence play a significant role in defining the mechanical performance and anisotropic nature of woven fiber‐reinforced laminated composites. Also, the anisotropic properties can be minimized by investigating the effect of fiber orientation and hybridization of natural fibers‐based laminated composites.Highlights Woven mats were tailored to orient different fibers in warp and weft directions. The influence of the fiber's orientation and stacking sequence was analyzed. Fiber orientation and hybridization have influenced mechanical performance. The alternative stacking sequence has shown the highest mechanical properties.

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“…1, a schematic diagram of shear deformation of flexible fabric, the yarn pull-out test is the most extensive method to evaluate the adhesive slip and friction properties of fabric yarns. [29][30][31][32] There are many ways to test for anti-ballistic performance including tensile tests, compression tests, and shearing tests. These tests can be carried out on an Instron universal testing machine (model 3382).…”

Section: Anti-ballistic Performancementioning

confidence: 99%

Anti-Ballistic Properties of Aramid Fabrics and Composites: A Review

Miao¹,

Yang²,

Xin³

2021

aatcc j res

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In studies of ballistic impact, the materials used in body armor must have high hardness, light weight, fatigue resistance, corrosion resistance, and other high performance characteristics. Aramid fibers are widely used in anti-ballistic materials. To facilitate the further development of aramid materials, this study reviews aramid research in recent years and analyzes the main factors affecting, and new methods for optimizing, anti-ballistic performance, with the emphasis on bulletproof fabrics. This review provides suggestions for future research and use of aramid materials for anti-ballistic performance.

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Stress transfer of single yarn drawing in soft fabric studied by micro Raman spectroscopy

Cited by 15 publications

References 20 publications

Stab and yarn pull-out resistance of shear thickening fluids (STFs)/E-glass based on PEG modification and modeling yarn pull-out behavior with artificial intelligence

Stab and yarn pull-out resistance of shear thickening fluids (STFs)/E-glass based on PEG modification and modeling yarn pull-out behavior with artificial intelligence

Static and dynamic mechanical behavior of intra‐hybrid jute/sisal‐reinforced polypropylene composites: Effect of stacking sequence

Anti-Ballistic Properties of Aramid Fabrics and Composites: A Review

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