Tissue engineering is an interdisciplinary approach that utilizes cells, scaffolds, and
biofactors to develop biosynthetic bone scaffolds for bone regeneration applications. These …

The novel bio-nanocomposite scaffold provides a temporary environment for bone growth,
and facilitates cell adhesion, growth, and differentiation. In the present study, a 3D printing …

Due to the nanoscale inverse Hall-Petch (HP) effect, the grain size exerts a significant
influence on the mechanical behaviour of the material. The impact of supersonic fine particle …

In this study, elastic modulus and hardness of fused silica were evaluated and then
simulated by molecular dynamics (MD) and finite element analysis (FEA). The reduced …

The bone scaffold is a porous structure that possesses suitable biological and mechanical
properties similar to those of natural bone, thereby providing a suitable substrate for bone …

Titanium alloy (Ti alloy) has been widely used in various industry areas and attracted
extensive attentions due to their excellent properties. In this work, the martensitic …

The effects of electroshocking treatment (EST) on microstructure evolution of dual-phase Ti
were investigated by Molecular Dynamics (MD) simulation. From MD results, EST induced …

This paper provides novel research on the effect of full dispersion and agglomeration of
single-walled carbon nanotubes (SWCNT) in the Aluminum (AL) matrix. The effect was …

This study aimed to assess the color match of porcelain veneer light-cure resin cements with
their respective try-in pastes. Ten disc-shaped specimens with 0.5 mm thickness and 7 mm …

When products are manufactured directly from 3D model data, they are referred to as
additive manufacturing or rapid prototyping (RP). Layered manufacturing refers to the …