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作 者:Jun Yin Jin Qian Yong Huang
机构地区:[1]The State Key Laboratory of Fluid Power and Mechatronic Systems,School of Mechanical Engineering,Zhejiang University,Hangzhou 310028,China [2]Key Laboratory of 3D Printing Process and Equipment of Zhejiang Province,School of Mechanical Engineering,Zhejiang University,Hangzhou 310028,China [3]Key Laboratory of Soft Machines and Smart Devices of Zhejiang Province,Department of Engineering Mechanics,Zhejiang University,Hangzhou 310027,China [4]Department of Mechanical and Aerospace Engineering,University of Florida,Gainesville,FL 32611,USA
出 处:《Bio-Design and Manufacturing》2023年第2期99-102,共4页生物设计与制造(英文)
摘 要:Additive manufacturing,also known as three-dimensional(3D)printing,has attracted increasing attention due to the innovations in materials science and manufacturing over recent decades[1].Recently,innovations in biocompatible materials and biology have enabled the extension of 3D printing techniques into bioadditive manufacturing,which focuses on the fabrication of 3D engineered native-like tissues/organs[2].Currently,bioadditive manufacturing technologies can be categorized into inkjet-based bioprinting,microextrusion-based bioprinting,digital light processing(DLP)bioprinting,electric field-assisted bioprinting,and fused deposition modeling(FDM),to name a few[3,4](Fig.1).Artificial tissues and organs with delicate structures,such as the heart[5]and liver[6],have been successfully fabricated using various bioadditive manufacturing techniques.
关 键 词:PRINTING ADDITIVE ORGANS
分 类 号:TB33[一般工业技术—材料科学与工程]
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