韧性
极限抗拉强度
材料科学
延伸率
复合材料
螺旋(腹足类)
模数
纳米-
生态学
生物
蜗牛
作者
Yingying Liu,Wenwen Hou,Pengfei Qi,Jie Yang,Xuelai Xie,Min Lin,Yanzhi Xia,Zhihong Nie,Kunyan Sui
标识
DOI:10.1016/j.carbpol.2022.119998
摘要
Fabricating alginate fibers of high strength and toughness remains a great challenge because of the difficulty in improving both strength and toughness simultaneously. Herein, this work reported the hierarchical assembly of sodium alginate nano-helix and its potential application as a new reinforcing unit for alginate fibers. Contributed from the hierarchical structures of α-helix, β-sheet and tertiary helical alignment of nanofibrils, nano-helix improved the tensile strength of fibers with enhanced modulus, and prolonged elongation through unravelling the tertiary structures. Thus, the strength, elongation and toughness of alginate fibers were all enhanced by >200 %, solving the tradeoff of strength and toughness. The mechanical performance of nano-helix engineered alginate fibers is superior to present alginate fibers and even some other biomass-based fibers. The assembly of nano-helix provides a feasible reinforcing strategy for polysaccharide based materials, achieving simultaneous improvement of strength and toughness.
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