Laser powder bed fusion (LPBF) additive manufacturing has been advancing in the
fabrication of metallic multi-material structures with intricate structures and refined material …

While significant progress has been made in understanding laser powder bed fusion (L-
PBF) as well as the fabrication of various materials using this technology, there is still limited …

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 …

Additive manufacturing techniques offer significant advantages over conventional
manufacturing methods. These include the possibility of realizing highly customized …

TC4/NiTi multi-materials structure components have been successfully fabricated via multi-
wire arc additive manufacturing (MWAAM). Here we show the interface characteristics and …

Additive manufacturing offers great potential and versatility for manufacturing high-quality
and geometrically complex components. Multi-material laser-powder bed fusion is an …

Ti-6Al-4V (Ti64) alloy is one of the most widely used orthopedic implant materials due to its
mechanical properties, corrosion resistance, and biocompatibility nature. Porous Ti64 …

Ti6Al4V alloy is an ideal lightweight structural metal for a huge variety of engineering
applications due to its distinguishing combination of high specific mechanical properties …

Nitinol shape memory alloy is a biocompatible material that is suitable for biomedical
applications due to its superelasticity, shape memory effect, good corrosion and fatigue …

Compared to the traditional additive manufacturing techniques, the electron beam freeform
fabrication (EBF 3), is carried out in a vacuum atmosphere, indicating its superiority in the …