多层级手性结构生物丝束力学性能的理论模拟  

作　　者：张迎宾 于红军 秦庆华 曲传咏 王建山 Yingbin Zhang;Hongjun Yu;Qinghua Qin;Chuanyong Qu;Jianshan Wang(Departiment of Mechanics,Tianjin University,Tianjin 300054,China;Deparment of Astronautic Science and Mechanics,Harbin Instiute of Technology Harbin 50001,China;Department of Materials Science,Shenzhen MSU-BIT University,Shenzhen 518172,China)

机构地区：[1]Departiment of Mechanics,Tianjin University,Tianjin 300054,China [2]Deparment of Astronautic Science and Mechanics,Harbin Instiute of Technology Harbin 50001,China [3]Department of Materials Science,Shenzhen MSU-BIT University,Shenzhen 518172,China

出　　处：《Acta Mechanica Sinica》2023年第7期173-184,共12页力学学报（英文版）

基　　金：supported by the National Natural Science Foundation of China(Grant Nos.12020101001,12021002,11890680,and 11872273);Tianjin Research Program of Application Foundation and Advanced Technology(Grant No.19JCYBJC19300).

摘　　要：高度有序的多层级手性结构赋予肌腱、韧带和植物卷须等生物丝束优异的力学性能.然而,多层级手性结构如何影响丝束的力学性能尚不清楚.本文建立了具有自相似多层级手性结构的生物丝束的理论模型.基于此模型,研究了丝束载荷传递机制、材料手性和手性组装形式及结构层级数对生物丝束的模量、刚度等力学性能的影响.结果表明,丝束的力学性能显著依赖于纤维的材料手性和多层级手性结构.材料手性可以使纤维更加柔软,多层级手性结构使丝束能够承受大的拉伸变形.此工作不仅加深了对生物丝束结构-性能关系的理解,还有助于人造肌肉和柔性致动器、传感器等的设计.Due to the existence of highly ordered hierarchical chiral structures,biological fibers and bundles such as tendons,ligaments,and climbing tendrils usually have excellent mechanical properties.How the hierarchical chiral structures affect the mechanical properties of fibers and bundles,however,remains unclear.In this paper,a theoretical model of the biological fibers and bundles with self-similar hierarchical chiral structures is developed by virtue of a simple homogenization treatment.Using the built model,the load transfer behavior and effect of material chirality,the chiral assembly forms,and structure level number on the mechanical properties are investigated.The results show that the mechanical properties of fibers and bundles are significantly dependent on the material chirality of fibrils and hierarchical chiral structures.The material chirality of fibrils can make the fiber much softer.And the hierarchical chiral structure provides the fibers and bundles with superior capability to endure large elongation and storage energy.The work is not only helpful for understanding the structure-property of biological fibers and bundles,but also for the design of artificial muscles and soft devices such as strain sensors.

关 键 词：拉伸变形 力学性能 组装形式 理论模拟 致动器 丝束 手性结构 多层级 

分 类 号：O3[理学—力学]