材料科学
选择性激光熔化
可制造性设计
生物相容性
小旋翼机
多孔性
磁导率
互连性
生物医学工程
复合材料
脚手架
聚合物
机械工程
微观结构
计算机科学
工程类
生物
人工智能
医学
冶金
遗传学
膜
共聚物
作者
Shuai Ma,Qian Tang,Xiaoxiao Han,Qixiang Feng,Jun Ho Song,Rossitza Setchi,Ying Liu,Yang Liu,Athanasios Goulas,Daniel S. Engstrøm,Y. Y. Tse,Ni Zhen
标识
DOI:10.1016/j.matdes.2020.109034
摘要
Selective laser melting is a promising additive manufacturing technology for manufacturing porous metallic bone scaffolds. Bone repair requires scaffolds that meet various mechanical and biological requirements. This paper addresses this challenge by comprehensively studying the performance of porous scaffolds. The main novelty is exploring scaffolds with different porosities, verifying various aspects of their performance and revealing the effect of their permeability on cell growth. This study evaluates the manufacturability, mechanical behaviour, permeability and biocompatibility of gyroid scaffolds. In simulations, mechanical behaviour and permeability exhibited up to 56% and 73% accuracy, respectively, compared to the experimental data. The compression and permeability experiments showed that the elastic modulus and the permeability of the scaffolds were both in the range of human bones. The morphological experiment showed that manufacturing accuracy increased with greater designed porosity, while the in vitro experiments revealed that permeability played the main role in cell proliferation. The significance of this work is improving the understanding of the effect of design parameters on the mechanical properties, permeability and cell growth of the scaffolds, which will enable the design of porous bone scaffolds with better bone-repair effects.
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