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A Biomimetic Model of Fiber-reinforced Composite Materials
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作者 Shihong LI Ronghui ZHANG +1 位作者 Shaoyun FU Xin CHEN and Benlian ZHOU(Institute of Metal Research, Academia Sinica, Shenyang, 110015, China)Qiyun ZENG(Institute of Applied Ecology, Academia Sinica, Shenyang, 110015, China) 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 1994年第1期34-38,共5页
In thjs paper. bamboo fiber has been. on micro scale. investigated as a helical. multi-layered hollow cylinder, the stiffness featu res of bamboo bast fiber were compared with those of a multifilament yarn in traditio... In thjs paper. bamboo fiber has been. on micro scale. investigated as a helical. multi-layered hollow cylinder, the stiffness featu res of bamboo bast fiber were compared with those of a multifilament yarn in traditional fiber-reinforced composite materials, Moreover. a biomimetic model of the reinforce ment of fiber-reinforced composite materials was proposed by imitating the fine structure of bamboo bast fiber. The results show that the comprehensive stiffness properties of the cornplicated fine struc ture of bamboo fiber is superior over those of traditional fiber-reinforced composites. 展开更多
关键词 CL A Biomimetic Model of Fiber-reinforced composite materials
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A bionic controllable strain membrane for cell stretching at air–liquid interface inspired by papercutting 被引量:1
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作者 Yuanrong Li Mingjun Xie +4 位作者 Shang Lv Yuan Sun Zhuang Li Zeming Gu Yong He 《International Journal of Extreme Manufacturing》 SCIE EI CAS CSCD 2023年第4期486-499,共14页
Lung diseases associated with alveoli,such as acute respiratory distress syndrome,have posed a long-term threat to human health.However,an in vitro model capable of simulating different deformations of the alveoli and... Lung diseases associated with alveoli,such as acute respiratory distress syndrome,have posed a long-term threat to human health.However,an in vitro model capable of simulating different deformations of the alveoli and a suitable material for mimicking basement membrane are currently lacking.Here,we present an innovative biomimetic controllable strain membrane(BCSM)at an air–liquid interface(ALI)to reconstruct alveolar respiration.The BCSM consists of a high-precision three-dimensional printing melt-electrowritten polycaprolactone(PCL)mesh,coated with a hydrogel substrate—to simulate the important functions(such as stiffness,porosity,wettability,and ALI)of alveolar microenvironments,and seeded pulmonary epithelial cells and vascular endothelial cells on either side,respectively.Inspired by papercutting,the BCSM was fabricated in the plane while it operated in three dimensions.A series of the topological structure of the BCSM was designed to control various local-area strain,mimicking alveolar varied deformation.Lopinavir/ritonavir could reduce Lamin A expression under over-stretch condition,which might be effective in preventing ventilator-induced lung injury.The biomimetic lung-unit model with BCSM has broader application prospects in alveoli-related research in the future,such as in drug toxicology and metabolism. 展开更多
关键词 biomimetic air-blood barrier composite material design controllable mechanical stimulus structure
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