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Morphology and Microstructure of Spider Dragline Silk from Araneus Ventricosus

Morphology and Microstructure of Spider Dragline Silk from Araneus Ventricosus
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摘要 The spider dragline silk has excellent mechanical properties. The stress- strain curves of dragline silk fibers have intraspecific and intraindividual variability because of the spider’s active control during spinning process. To investigate the relationship between the morphology of dragline silk fibers and spinning conditions, four samples were made at the reeling rates of 1 mm/s, 20 mm/s, 43.5 mm/s and 110 mm/s from the major ampullate glands of Araneus Ventricosus and the other two of dragline silks were prepared from a crawling or dropping spider. The surface microstructure and nanofibril characteristic were analyzed with atomic force microscopy (AFM). AFM images of 2 000 nm *2 000 nm and 500 nm*500 nm of these samples showed that the spinning condition influenced the surface roughness and fibril size, while AFM images of 200 nm*200 nm clearly displayed that dragline silk of Araneus Ventricosus included sheet macro-conformation structure. These results can facilitate the further investigation of the spinning mechanism of a spider in order to understand mechanical properties and macromolecular structures of dragline silk. The spider dragline silk has excellent mechanical properties. The stress- strain curves of dragline silk fibers have intraspecific and intraindividual variability because of the spider's active control during spinning process. To investigate the relationship between the morphology of dragline silk fibers and spinning conditions, four samples were made at the reeling rates of 1 mm/s, 20 mm/s, 43.5 mm/s and 110 mm/s from the major ampullate glands of Araneus Ventricosus and the other two of dragline silks were prepared from a crawling or dropping spider. The surface microstructure and nanofibril characteristic were analyzed with atomic force microscopy (AFM). AFM images of 2 000 nm *2 000 nm and 500 nm*500 nm of these samples showed that the spinning condition influenced the surface roughness and fibril size, while AFM images of 200 nm*200 nm clearly displayed that dragline silk of Araneus Ventricosus included sheet macro-conformation structure. These results can facilitate the further investigation of the spinning mechanism of a spider in order to understand mechanical properties and macromolecular structures of dragline silk.
作者 潘志娟 三浦幹彦 森川英明 岩佐昌征 刘敏
机构地区 College of Material Engineering of Soochow University Faculty of Textile Science and Technology College of Material Engineering of Soochow University
出处 《Journal of Donghua University(English Edition)》 EI CAS 2005年第1期73-77,共5页 东华大学学报(英文版)
基金 science and technology office of Jiangsu province
关键词 Spider silk Atomic force microscopy MICROSTRUCTURE Nanofibril. 微观结构 蜘蛛丝 纤维 原子显微镜法 氨基酸
分类号 TS102.33 [轻工技术与工程—纺织工程] Q959.26 [轻工技术与工程—纺织科学与工程]
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参考文献13

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二级参考文献13

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共引文献19

Journal of Donghua University(English Edition)
2005年 第1期

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