A multiscale investigation of mechanical properties of bio-inspired scaffolds

Gu Yucong; Yasodharababu Mohan; Nair Arun K.

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A multiscale investigation of mechanical properties of bio-inspired scaffolds

机译：生物启发支架的力学性能的多尺度研究

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Finding a structural design which allows the scaffold to have a high porosity and large pore size while retaining high strength is essential. Here, a bio-inspired scaffold is designed based on the observed geometrical pattern of the apatite atomic crystal structure, and mechanical properties are compared with other common scaffold geometries. The bio-inspired scaffold design is proven superior using a multiscale computational approach, which combines density functional theory and finite element analysis to predict the stress reaction and substitution effects on the scaffolds. This study provides insight into better scaffold design using bio-inspired structures and the effect of substitutions.

机译：寻找一种结构设计以使支架具有高孔隙率和大孔径同时保持高强度是必不可少的。在此，根据观察到的磷灰石原子晶体结构的几何图案设计了生物启发的支架，并将其机械性能与其他常见的支架几何结构进行了比较。使用多尺度计算方法证明了具有生物启发性的支架设计的优越性，该方法结合了密度泛函理论和有限元分析来预测应力反应和对支架的替代作用。这项研究提供了利用生物启发性结构更好地进行支架设计以及替代作用的见解。

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《Computer methods in biomechanics and biomedical engineering》 |2018年第16期|703-711|共9页
作者
Gu Yucong; Yasodharababu Mohan; Nair Arun K.;
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作者单位

Univ Arkansas, Dept Mech Engn, Multiscale Mat Modeling Lab, Fayetteville, AR 72701 USA;

Univ Arkansas, Dept Mech Engn, Multiscale Mat Modeling Lab, Fayetteville, AR 72701 USA;

Univ Arkansas, Dept Mech Engn, Multiscale Mat Modeling Lab, Fayetteville, AR 72701 USA|Univ Arkansas, Inst Nanosci & Engn, Fayetteville, AR 72701 USA;

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Bio-inspired scaffolds; anionic and cationic substitutions; apatite crystals; multi-scale modeling;

机译：生物启发支架;阴离子和阳离子取代;磷灰石晶体;多尺度建模;

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A multiscale investigation of mechanical properties of bio-inspired scaffolds

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