典型文献
Study of the Climbing Behavior of the Flagella of Calamus Simplicifolius Based on Micro-CT and Nanoindentation
文献摘要:
Rattan is a typical tropical climbing plant that uses flagella to climb supports to grow.A comprehensive understanding of the anatomic structure and micromechanics of rattan flagella might inspire more research on biomimetic climbing materials.Here,the structure and micromechanical properties of flagella in calamus simplicifolius were examined by Micro-Computed Tomography(Micro-CT)and nanoindentation techniques,respectively.The results showed that the rachis of the flagella mainly comprised vascular bundles surrounded by basic tissues,which had a gradient density decreasing from outsides to insides.The prickles are derived from the epidermis or the epidermis and cortical tissue of the flagellum,which do not pos-sess vascular tissue.The entire tip of the prickle was composed almost of fibrous cells.The indentation modulus of elastic-ity of the prickle was 17.03 GPa,which was 17.93%higher in comparison with the rachis.The hardness of the prickle was 539.27 MPa and was slightly higher than that of the rachis.The results indicated that the discrepancy of micromechanical strengths in different parts of flagella reflects on their unique roles in the process of climbing.
文献关键词:
中图分类号:
作者姓名:
Fukuan Dai;Ziwei Wang;Tuhua Zhong;Hankun Wang;Genlin Tian
作者机构:
Institute of New Bamboo and Rattan Based Biomaterials,International Center for Bamboo and Rattan,Beijing 100102,China;Key Laboratory of National Forestry and Grassland Administration/Beijing for Bamboo&Rattan Science and Technology,Beijing 100102,China
文献出处:
引用格式:
[1]Fukuan Dai;Ziwei Wang;Tuhua Zhong;Hankun Wang;Genlin Tian-.Study of the Climbing Behavior of the Flagella of Calamus Simplicifolius Based on Micro-CT and Nanoindentation)[J].仿生工程学报(英文版),2022(06):1790-1796
A类:
Flagella,Calamus,Simplicifolius,Rattan,rattan,simplicifolius,rachis,outsides,insides,prickles,flagellum,prickle
B类:
Study,Climbing,Behavior,Based,Micro,Nanoindentation,typical,tropical,climbing,plant,that,uses,flagella,supports,grow,comprehensive,understanding,anatomic,structure,micromechanics,might,inspire,more,research,biomimetic,materials,Here,micromechanical,properties,calamus,were,examined,by,Computed,Tomography,nanoindentation,techniques,respectively,results,showed,mainly,comprised,vascular,bundles,surrounded,basic,tissues,which,had,gradient,density,decreasing,from,are,derived,epidermis,cortical,do,not,sess,entire,tip,was,composed,almost,fibrous,cells,modulus,elastic,GPa,higher,comparison,hardness,slightly,than,indicated,discrepancy,strengths,different,parts,reflects,their,unique,roles,process
AB值:
0.490988
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