In order to explore ultra-high molecular weight polyethylene(UHMWPE)stab-resistant composite with a dendritic structure, a dendritic stab-resistant composite with UHMWPE filaments sandwiched between PET/PA6 hollow segmented-orange bicomponent superfine fiber layers were prepared by of combination needle punching and spunlacing. The stab resistance and moisture permeability of the samples were characterized. The results show that superfine fibers exist in the UHMWPE filament layer in the form of fiber clusters to form superfine fiber channels,the UHMWPE filament layer and the superfine fiber layers are tangled with each other to form the samples with a dendritic structure under the impact of needle punching and spunlacing. Needling density and needling depth have significant influence on the moisture permeability,and the moisture permeability of the samples is 889.20 g/(m2·24 h)when the needling density is 274.37 punches/cm2and the needling depth is 7.70 mm. Furthermore,the quadratic models have high confidence,and can be applied in the theoretical analysis of the moisture permeability of the UHMWPE flexible stab-resistant composites with a dendritic structure.%为获得仿生树型结构的超高分子量聚乙烯(UHMWPE)非织造复合材料,采用针刺 水刺复合技术制备聚对苯二甲酸乙二醇酯/聚酰胺6中空橘瓣型双组分超细纤维层夹持UHMWPE长丝层的树型柔性防刺复合材料,并对样品形态结构和理化性能进行表征.结果表明:超细纤维以纤维簇的形式在UHMWPE长丝层内形成超细纤维通道,UHMWPE长丝层与两侧超细纤维层在针刺和水刺的冲击作用下紧密缠结成仿生树型结构;针刺密度和针刺深度对透湿率有显著影响,在针刺密度为274.37刺/cm2,针刺深度为7.70 mm 时,样品透湿率为889.20 g/(m2·24 h);建立的二次方模型的置信度高,可用于仿生树型UHMWPE柔性防刺复合材料透湿性能的理论分析.
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