Topological management of materials at a Micro‐scale is one of the fundamental building
principles of nature. This combination of material and structural properties results in marked …

In this paper, we review analytical and computational models of bone fracture and strength.
Bone fracture is a complex phenomenon due to the composite, inhomogeneous and …

The successful application of magnesium (Mg) alloys as biodegradable bone substitutes for
critical-sized defects may be comprised by their high degradation rate resulting in a loss of …

The present research work describes the designing of an artificial scaffold for medical bone
applications which were manufactured by color jet 3D printing technology. Two categories of …

An aluminum foam can be characterized by its architecture and by the solid
phase'microstructure. Our aim is to link the foam's morphological and microstructural …

Magnesium (Mg) and its alloys are very promising degradable, osteoconductive and
osteopromotive materials to be used as regenerative treatment for critical-sized bone …

The inelastic pressure dependent compressive behaviour of bovine trabecular bone is
investigated through experimental and computational analysis. Two loading configurations …

This study presents an imaged-based shell modelling strategy for closed cell metallic foams
exploiting X-ray Computed Tomography scans, with its illustration on ALCORAS® foams …

Mechanical stimuli are one of the factors that influence bone cell activity and therefore the
remodeling of bone. These stimuli are dependent on the microarchitecture of the tissue and …

Bone is a porous structure with a solid phase that contains hydroxyapatite and collagen.
Due to its composition, bone is often represented either as a poroelastic or as a viscoelastic …