Metal-based laser additive manufacturing (MLAM) is receiving significant attention in
industrial fields due to its capacity to manufacture complex and high-performance metal …

High deposition rate laser directed energy deposition (HDR-DED) technology, including
powder-and wire-based laser directed energy deposition, has emerged recently to fulfil the …

Lattice structures are vital for biological applications because of its numerous benefits (for
example, faster and stronger binding to bone tissue). Consequently, processing of lattice …

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 (AM) technology has revolutionized the way goods are developed
and produced, with numerous uses in aerospace, automotive, medical, and consumer …

In the recent decades, the laser-directed energy deposition (L-DED) of aluminium alloy has
encountered significant challenges owing to the defects and tensile residual stress. In this …

Titanium alloy, an ideal aviation and biomedical material, is generally considered as a
typical difficult-to-cut material because of low elastic modulus and poor thermal conductivity …

Biodegradable metals such as magnesium (Mg) and its alloys have attracted extensive
attention in biomedical research due to their excellent mechanical properties and …

AlCoCrFeNi 2.1 eutectic high entropy alloy (EHEA), with its unique in-situ composite
structure, not only overcomes the shortcoming of insufficient strength for face-centered-cubic …

Here, the strengthening and fracturing mechanisms of Al-7075 alloy fabricated by laser-
directed energy deposition (L-DED) in the as-printed and heat-treated specimens are …