Additive manufacturing (AM) of ceramics is relatively more challenging with respect to
polymers and metals, owing to their high melting temperatures and inherent brittleness …

The restricted number of materials available for additive manufacturing (AM) technologies is
a determining impediment to AM growing into sectors and providing supply chain relief. AM …

Abstract Laser Powder Bed Fusion (L-PBF) is an innovative metal Additive Manufacturing
process that enables the production of highly complex parts with unique precision, making it …

Additive manufacturing technologies are considered advanced processes in which it is
possible to produce complex shape components layer-by-layer. In these technologies, it is …

Surface modification of metal Additive Manufacturing (AM) components has gathered a lot of
interest recently. Ultrasonic Peening (UP) was employed to improve the corrosion properties …

Corrosion resistance of additively manufactured Invar 36 alloy is crucial for its practical
application in marine engineering. However, the lack of reporting on its corrosion resistance …

In recent years there has been a growing interest in using additive manufacturing to produce
near net-shape parts from titanium alloys. Most of these studies have focused on the …

Abstract Ti–6Al–4V scaffolds have attracted much attention for biomedical applications
owing to their bone-mimicking mechanical properties and better bone tissue in-growth and …

Additive manufacturing (AM) of Ti-based biomedical implants is a pivotal research topic
because of its ability to produce implants with complicated geometries. Despite desirable …

Metal additive manufacturing (AM) is an innovative manufacturing method with numerous
metallurgical benefits, including fine and hierarchical microstructures and enhanced …