Additive manufacturing (AM) combines materials to create parts from three-dimensional
model data, often layer by layer. AM is mainly deployed to fabricate complicated geometrical …

With the ability to produce components with complex and precise structures, additive
manufacturing or 3D printing techniques are now widely applied in both industry and …

Abstract Recently, additive manufacturing (AM), being part of IR4. 0, received great attention
for the fabrication of customized implants with outstanding quality, which are used in hard …

Laser powder bed fusion (LPBF) is a timely important additive manufacturing technique that
offers many opportunities for fabricating three-dimensional complex shaped components at …

Abstract In Additive Manufacturing (AM), parts are normally fabricated along the direction
perpendicular to the build plate. However, the main axis of the part may differ from this …

Additive manufacturing (AM) enables fully dense biomimetic implants in the designed
geometries from preferred materials such as titanium and its alloys. Titanium aluminum …

Hydrogen is considered as a primary energy carrier for the hydrogen economy. However,
hydrogen embrittlement (HE) is an inescapable problem that needs to be solved because …

Additive manufacturing (AM) has obtained great attentions in the productions of
customizable implants with complex shapes and good mechanical properties. AM fabricated …

Powder based additive manufacturing (AM) technology of Ti and its alloys has received
great attention in biomedical applications owing to its advantages such as customized …

Additive manufacturing has been emerging as a highly efficient method that minimizes the
consumption of virgin materials and energy to rapidly repair the damaged parts and …