Biodegradable magnesium (Mg) alloys exhibit excellent biocompatibility, adequate
mechanical properties, and osteogenic effect. They can contribute to complete recovery of …

Synthetic grafting needs improvements to eliminate secondary surgeries for the removal of
implants after healing of the defected tissues. Tissue scaffolds are engineered to serve as …

Dynamic uniaxial impact behaviour of metal foams using a 3D cell-based finite element
model is examined. At sufficiently high loading rates, these materials respond by forming …

The effects of the relative density and loading rate on the compressive response,
deformation pattern and energy absorption of 3D printed polymeric Kelvin foams are …

Magnesium alloys, renowned for their lightweight yet high-strength characteristics, with
exceptional mechanical properties, are highly coveted for numerous applications. The …

As a result of evolution, many biological materials have developed irregular structures that
lead to outstanding mechanical performances, like high stiffness‐to‐weight ratios and good …

The implementation of periodic boundary conditions (PBCs) is one of the most important and
difficult steps in the computational analysis of structures and materials. This is especially true …

Ceramics possess desirable stiffness, compressive strength, and thermal properties
compared to alternative material classes. Despite this, the adoption of ceramics into …

Three-dimensional Voronoi models are developed to investigate the mechanical behavior of
linearly elastic open cell foams. Dependence of the Young's modulus, Poisson's ratio and …

Aluminium foams produced by melting powder compacts containing a blowing agent are
usually non-uniform which might lead to inferior mechanical properties. The reasons for this …