Modelling the elastic mechanical properties of bioactive glass-derived scaffolds

Q1 Materials Science
F. Baino, E. Fiume
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引用次数: 3

Abstract

Abstract Porosity is known to play a pivotal role in dictating the functional properties of biomedical scaffolds, with special reference to mechanical performance. While compressive strength is relatively easy to be experimentally assessed even for brittle ceramic and glass foams, elastic properties are much more difficult to be reliably estimated. Therefore, describing and, hence, predicting the relationship between porosity and elastic properties based only on the constitutive parameters of the solid material is still a challenge. In this work, we quantitatively compare the predictive capability of a set of different models in describing, over a wide range of porosity, the elastic modulus (7 models), shear modulus (3 models) and Poisson’s ratio (7 models) of bioactive silicate glass-derived scaffolds produced by foam replication. For these types of biomedical materials, the porosity dependence of elastic and shear moduli follows a second-order power-law approximation, whereas the relationship between porosity and Poisson’s ratio is well fitted by a linear equation.
生物活性玻璃衍生支架的弹性力学性能建模
摘要众所周知,孔隙率在决定生物医学支架的功能性能方面发挥着关键作用,特别是在机械性能方面。虽然即使对于脆性陶瓷和玻璃泡沫,压缩强度也相对容易通过实验评估,但弹性性能更难可靠估计。因此,仅基于固体材料的本构参数来描述并预测孔隙率和弹性性能之间的关系仍然是一个挑战。在这项工作中,我们定量比较了一组不同模型在描述通过泡沫复制生产的生物活性硅酸盐玻璃衍生支架的弹性模量(7个模型)、剪切模量(3个模型)和泊松比(7个模式)时的预测能力。对于这些类型的生物医学材料,弹性模量和剪切模量的孔隙率依赖性遵循二阶幂律近似,而孔隙率和泊松比之间的关系由线性方程很好地拟合。
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来源期刊
Biomedical Glasses
Biomedical Glasses Materials Science-Surfaces, Coatings and Films
自引率
0.00%
发文量
0
审稿时长
17 weeks
期刊介绍: Biomedical Glasses is an international Open Access-only journal covering the field of glasses for biomedical applications. The scope of the journal covers the science and technology of glasses and glass-based materials intended for applications in medicine and dentistry. It includes: Chemistry, physics, structure, design and characterization of biomedical glasses Surface science and interactions of biomedical glasses with aqueous and biological media Modeling structure and reactivity of biomedical glasses and their interfaces Biocompatibility of biomedical glasses Processing of biomedical glasses to achieve specific forms and functionality Biomedical glass coatings and composites In vitro and in vivo evaluation of biomedical glasses Glasses and glass-ceramics in engineered regeneration of tissues and organs Glass-based devices for medical and dental applications Application of glasses and glass-ceramics in healthcare.
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