[张贴报告]Based on industrial solid waste modification, green shear thickening liquid interface enhances the bulletproof and flame retardant properties of fabrics
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[张贴报告]Based on industrial solid waste modification, green shear thickening liquid interface enhances the bulletproof and flame retardant properties of fabrics

Based on industrial solid waste modification, green shear thickening liquid interface enhances the bulletproof and flame retardant properties of fabrics
编号:58 稿件编号:349 访问权限:仅限参会人 更新:2024-05-15 17:32:52 浏览:491次 张贴报告

报告开始:暂无开始时间 (Asia/Shanghai)

报告时间:暂无持续时间

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摘要
Green shear-thickening functionalized bulletproof and flame-retardant composite materials were prepared by utilizing ordinary sewage sludge particles, high-temperature alkali-modified sludge particles, and industrial solid waste for modification and surface grafting of functional groups. The industrial solid waste is modified through surface inerting to serve as a shear-thickening dispersion phase for regulating the green shear-thickening liquid. To enhance the grafting load of dispersed phase particles, aramid fabric (AF) undergoes surface grafting and modification. The bulletproof performance is evaluated by combining the solid waste-based modified shear-thickening liquid with the modified AF fabric. Characterization experiments demonstrate that the addition of inert functional groups on the surface of solid waste results in a more pronounced shear-thickening effect. The yarn pull-out test reveals a 3.2-fold increase in tensile force, indicating improved friction performance. Ballistic tests indicate that immersion in solid waste-based shear thickener raises the ballistic limit velocity (Vbl) from 50 m/s to 95 m/s. The composite fiber fabric in the flame retardant experiment exhibits enhanced flame retardant and thermal insulation properties. Particle doping enhances yarn friction, increases the load-bearing area of fabrics, offers insights for designing high-performance soft bulletproof vests, and promotes the resource utilization and high-value utilization of solid waste.
关键字
Industrial solid waste,Ballistic performance,Shear thickening,Silica Surface Modification,Flame retardant
报告人
Ke Yan
Beijing Institute of Technology

稿件作者
Ke Yan Beijing Institute of Technology
Hao Wu Beijing Institute of Technology
Runhan Li Beijing Institute of Technology
Xiaobing Bian Beijing Institute of Technology
Shaobo Qi Beijing Institute of Technology
Mengqi Yuan Beijing Institute of Technology
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