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Mechanically inferior constituents in spider silk result in mechanically superior fibres by adaptation to harsh hydration conditions: a molecular dynamics study 원문보기

Journal of the Royal Society, Interface, v.15 no.144, 2018년, pp.20180305 - 20180305  

Kim, Yoonjung (Department of Mechanical Engineering, Korea University, , 02841 Seoul, Republic of Korea) ,  Lee, Myeongsang (Institute of Advanced Machinery Design and Technology, Korea University, , 02841 Seoul, Republic of Korea) ,  Baek, Inchul (Department of Mechanical Engineering, Korea University, , 02841 Seoul, Republic of Korea) ,  Yoon, Taeyoung (Department of Mechanical Engineering, Korea University, , 02841 Seoul, Republic of Korea) ,  Na, Sungsoo (Department of Mechanical Engineering, Korea University, , 02841 Seoul, Republic of Korea)

Abstract AI-Helper 아이콘AI-Helper

Spider silk exhibits mechanical properties such as high strength and toughness that are superior to those of any man- made fibre (Bourzac 2015 Nature 519, S4-S6 (doi:10.1038/519S4a)). This high strength and toughness originates from a combination of the crystalline (exhibiting robust strength) and a...

주제어

#spider silk   #material characterization   #molecular dynamics   #hydration effects  

참고문헌 (33)

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