Affiliation:
1. Department of Mechanical Engineering (DMEC), Politecnico di Milano, Via La Masa 1, 20156 Milano, Italy
Abstract
Currently, the onset of bone damage and the interaction of cracks with the surrounding micro-architecture are still black boxes. With the motivation to address this issue, our research targets isolating lacunar morphological and densitometric effects on crack advancement under both static and cyclic loading conditions by implementing static extended finite element models (XFEM) and fatigue analyses. The effect of lacunar pathological alterations on damage initiation and progression is evaluated; the results indicate that high lacunar density considerably reduces the mechanical strength of the specimens, resulting as the most influencing parameter among the studied ones. Lacunar size has a lower effect on mechanical strength, reducing it by 2%. Additionally, specific lacunar alignments play a key role in deviating the crack path, eventually slowing its progression. This could shed some light on evaluating the effects of lacunar alterations on fracture evolution in the presence of pathologies.
Subject
General Materials Science
Reference50 articles.
1. Burden of high fracture probability worldwide: Secular increases 2010–2040;McCloskey;Osteoporos. Int.,2015
2. Buccino, F., Colombo, C., and Vergani, L.M. (2021). A review on multiscale bone damage: From the clinical to the research perspective. Materials, 14.
3. Yudaev, P., Chuev, V., Klyukin, B., Kuskov, A., Mezhuev, Y., and Chistyakov, E. (2022). Polymeric Dental Nanomaterials: Antimicrobial Action. Polymers, 14.
4. Mapping Local Mechanical Properties of Human Healthy and Osteoporotic Femoral Heads;Buccino;SSRN Electron. J.,2021
5. Mirzaali, M.J., Libonati, F., Ferrario, D., Rinaudo, L., Messina, C., Ulivieri, F.M., Cesana, B.M., Strano, M., and Vergani, L. (2018). Determinants of bone damage: An ex-vivo study on porcine vertebrae. PLoS ONE, 13.
Cited by
3 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献