Assessment of mechanical properties of bone trabeculae as an inverse problem of heterogeneous material modeling

IF 1.1 4区工程技术 Q3 MATERIALS SCIENCE, CHARACTERIZATION & TESTING Archives of Mechanics Pub Date : 2020-10-19 DOI:10.24423/AOM.3469

K. Janc, J. Tarasiuk, P. Lipinski, A. Bonnet, S. Wronski

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引用次数: 2

Abstract

In this study, the trabecular bone was treated as a composite material that consists of a bone matrix weakened by ellipsoidal pores. Under the hypothesis that all information concerning the local properties and the microarchitecture are “encrypted” in the apparent properties of a given volume element (VE) of the bone, a method of retrieving these data was proposed. Software based on a genetic algorithm, combined with the incremental scale transition method was developed to this end. To test the approach, μCT measurements of four bone samples were performed providing their real micro-architecture. Tensors of apparent properties of the samples were next computed by numerical (finite element) homogenization method for a large range of the elastic properties of trabeculae. They were considered as the fitness function for the proposed algorithm. Very good agreement was found between the obtained and target values of the apparent elastic properties of the samples and volume fraction of pores. The approach is fast and accurate enough in comparison to the finite element homogenization. As an auxiliary result it was shown that the anisotropy of apparent elastic properties is mainly related to the microarchitecture of the bone, not to the intrinsic properties of trabeculae.

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作为非均质材料建模的反问题评估骨小梁的力学性能

在这项研究中，小梁骨被视为一种复合材料，由被椭球孔削弱的骨基质组成。在假设所有关于局部特性和微结构的信息都在给定骨体积元素（VE）的表观特性中“加密”的情况下，提出了一种检索这些数据的方法。为此，开发了基于遗传算法并结合增量尺度转换方法的软件。为了测试该方法，对四个骨骼样本进行了μCT测量，以提供其真实的微观结构。接下来，对于小梁的大范围弹性特性，通过数值（有限元）均匀化方法计算样品的表观特性张量。它们被认为是所提出算法的适应度函数。在样品的表观弹性性质和孔隙体积分数的所获得的值和目标值之间发现了非常好的一致性。与有限元均匀化方法相比，该方法足够快速和准确。辅助结果表明，表观弹性特性的各向异性主要与骨的微结构有关，而与小梁的固有特性无关。

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来源期刊

Archives of Mechanics 工程技术-材料科学：表征与测试

CiteScore

1.40

自引率

12.50%

发文量

审稿时长

>12 weeks

期刊介绍： Archives of Mechanics provides a forum for original research on mechanics of solids, fluids and discrete systems, including the development of mathematical methods for solving mechanical problems. The journal encompasses all aspects of the field, with the emphasis placed on: -mechanics of materials: elasticity, plasticity, time-dependent phenomena, phase transformation, damage, fracture; physical and experimental foundations, micromechanics, thermodynamics, instabilities; -methods and problems in continuum mechanics: general theory and novel applications, thermomechanics, structural analysis, porous media, contact problems; -dynamics of material systems; -fluid flows and interactions with solids. Papers published in the Archives should contain original contributions dealing with theoretical, experimental, or numerical aspects of mechanical problems listed above. The journal publishes also current announcements and information about important scientific events of possible interest to its readers, like conferences, congresses, symposia, work-shops, courses, etc. Occasionally, special issues of the journal may be devoted to publication of all or selected papers presented at international conferences or other scientific meetings. However, all papers intended for such an issue are subjected to the usual reviewing and acceptance procedure.