Remanufacturing, the process of transforming end-of-life and end-of-use components into
reusable ones, is gaining prominence as one of the essential elements for achieving …

Titanium-matrix composite-reinforced restored layers are used to repair cracks and dents on
titanium alloy shells to impart the deposition layer with the same properties as the base …

Over the past decade, laser cladding has made significant strides, proving highly effective in
cladding applications due to its efficiency. The process involves manipulating a base plate …

Epitaxial columnar grain growth is a prevalent microstructural feature in the additive
manufacturing (AM) of metal components such as Inconel, with cubic unit cell crystal lattice …

Laser additive manufacturing (LAM) has wide prospects in the titanium alloy for aerospace
applications because of its low consumption, high forming efficiency and digital …

During the laser additive manufacturing (LAM) process large temperature gradients can lead
to high level of residual stress. The residual stress can have irreversible effects such as …

Laser cladding is a cutting-edge technology widely used in additive manufacturing and
surface modification. This process entails rapid melting and solidification driven by laser …

Laser directed energy deposition (DED) is an innovative additive manufacturing technology
with tremendous potential for remanufacturing and repairing critical components. For …

The role of microstructure in influencing fatigue crack growth behavior for laser powder bed
fusion (LPBF) produced nickel superalloy 718 was examined. Two common post-build heat …

Direct laser metal deposition (DLMD) is a promising additive manufacturing technique which
has a huge potential in remanufacturing and restoration of high-value dies/molds and …