Litcius/Paper detail

Bone osteon-like structures: A biomimetic approach towards multiscale fiber-reinforced composite structures

Alessandro Stagni, Giacomo Trevisan, L. Vergani, Flavia Libonati

2024Composites Science and Technology14 citationsDOIOpen Access PDF

Abstract

Natural materials show astonishing mechanical properties, despite their rather poor building blocks. This counterintuitive behavior can be traced back to their hierarchical organization that enhances the properties of the building blocks. A classic example is bone: lightweight, stiff, strong, yet tough. This property combination is attributed particularly to the microstructure, where osteons deflect and arrest cracks. In this work, we mimic the bone microstructure with fiber-reinforced composites: we perform a numerical parametric study, by varying the layup of the osteon-like structures (OLS) and interconnecting layers representing the interstitial bone lamellae, and we manufacture and test single OLS as proof of concept. Results show the key role of OLS and interconnecting layers in deflecting and arresting cracks, whereas the combination of diverse materials affects the elastic properties. Finally, the introduction of hollow OLS, not affecting fracture toughness, might be used to expand the material functionality, paving the way toward novel multifunctional composites.

Topics & Concepts

OsteonMaterials scienceComposite materialMicrostructureComposite numberToughnessFiberParametric statisticsFracture (geology)Fracture toughnessCortical boneStatisticsAnatomyMathematicsMedicineBone Tissue Engineering MaterialsCalcium Carbonate Crystallization and InhibitionTitanium Alloys Microstructure and Properties
Bone osteon-like structures: A biomimetic approach towards multiscale fiber-reinforced composite structures | Litcius