Ti and its alloys have been broadly adopted across various industries owing to their
outstanding properties, such as high strength-to-weight ratio, excellent fatigue performance …

Laser additive manufacturing (LAM) technique can efficiently fabricate Ti6Al4V components
of complex shapes, but often show poor mechanical properties. In this study, tantalum (Ta) …

Controlling the texture evolution to help tailor the mechanical properties is crucial in the
laser powder bed-fusion (L-PBF) of superalloy. Previous studies demonstrated a …

Nanosilicon (nano‐Si) anode is subjected to significant stress concentration, which is
caused by extrusion deformation of expanded Si nanoparticles with uneven distribution. The …

The metal-based additive manufacturing (AM), also referred to as metal 3D printing, has
drawn particular interest because it enables direct creation, aided by computationally …

Within the last two decades, additive manufacturing (AM), aka 3D printing, has provided
promising solutions for producing near-net-shape components with intricate geometries …

Wire arc additive manufacturing (WAAM) holds promise for producing medium to large
industrial components. Application of WAAM in the manufacturing of biomedical materials …

Cracking is one of the most important challenges in the laser powder-bed fusion (LPBF)
processing of high-γʹ nickel-based superalloys. In this work, crack susceptibility of the …

In this study, the solidification microstructure, reconstructed by the method of parent grain
crystallographic reconstruction (PGCR), was studied for TC4 titanium alloy welded joint. The …

Limited work exists on the potential for microstructural control during Laser Beam Powder
Bed Fusion (LB-PBF) in α+ β Ti-alloys, particularly the impact of the process parameters on …