As a crucial branch for titanium industry, high-strength titanium alloys (HS-TAs, with UTS≥
1100 MPa) are indispensable structural materials for advanced engineering applications …

Additive manufacturing (AM) is an innovative technology that creates objects with a complex
geometry layer-by-layer, and it has rapidly prospered in manufacturing metallic parts for …

Additive manufacturing (AM) creates digitally designed parts by successive addition of
material. However, owing to intrinsic thermal cycling, metallic parts produced by AM almost …

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 …

With the rapid development of Additive Manufacturing (AM) technology in the past 30 years,
AM has been shifting from prototyping to advanced manufacturing of functional components …

The strength–ductility trade-off is challenging for metal materials fabricated using
conventional techniques. Directed energy deposition (DED), which can manufacture …

Functionally graded materials (FGMs) are desirable in a variety of applications. Due to a lack
of understanding of design and manufacturing methods, it remains a challenge to engineer …

The additive manufacturing (AM) of Ni-based superalloys has attracted extensive interest
from both academia and industry due to its unique capabilities to fabricate complex and high …

Abstract When Ti-6Al-4V is processed by laser powder bed fusion (L-PBF), acicular
martensitic α'-Ti grains are formed within the columnar prior β-Ti grains, resulting in inferior …

Abstract Laser Powder Bed Fusion (L-PBF) provides great advantages in creating
supersaturated solid solutions due to its intrinsic ultrafast cooling and high solidification rate …