Mengqi Yang scite author profile

Modern ballistic helmets made from textile composites offer enhanced protection with lightweight, but the discontinuity of the reinforcing materials is a potential problem affecting the helmet performance. This work uses 3D angle-interlock fabrics to provide reinforcement continuity, and evaluates 3D through-the-thickness angle-interlock (TTAI) fabrics to study the influence of fabric structural parameters on fabric mouldabilty and ballistic performance for ballistic helmet application. The mouldability was measured through experiments and modelled numerically, and the ballistic impact test was carried out to identify the optimal fabric structures for constructing ballistic helmet shells. The results show that increase in weft density of the TTAI fabrics causes decrease in the mouldability of the TTAI fabrics, and that the addition of wadding yarns into the TTAI fabrics has little influence on fabric mouldability compared to the conventional TTAI fabrics with the same weft density. However, the involvement of wadded TTAI fabrics demonstrates a 34% increase in ballistic energy absorption and 3% higher estimated ballistic limit over the conventional counterpart. Taking both mouldability and ballistic protection into account, the wadded TTAI fabric structure is an effective continuous reinforcement for ballistic helmet shells, offering required mouldability and improved ballistic performance.

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Release behavior of iodine during leaching and calcination of phosphate rock

Peng

Xiang

et al. 2021

Environ Sci Pollut Res

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ChemInform Abstract: Standard Enthalpy of Formation of Hexamethyldisilane.

et al. 1991

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Mengqi Yang

ChemInform Abstract: Enthalpies of Combustion of 2,4,6‐Trimethylbenzonitrile, 2,4,6‐ Trimethylbenzonitrile N‐Oxide, 2,6‐Dimethylbenzonitrile, 2,4,6‐ Trimethoxybenzonitrile, and 2,4,6‐Trimethoxybenzonitrile N‐Oxide: The Dissociation Enthalpies of the (N‐O) Bonds.

Mouldability analysis and impact performance of 3D aramid angle-interlock fabric panels for ballistic helmets

Release behavior of iodine during leaching and calcination of phosphate rock

ChemInform Abstract: Standard Enthalpy of Formation of Hexamethyldisilane.

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