Abstract TiAl-5wt.% Ti 2 AlC-3wt.% Mn composites reinforced by the addition of Mn and in
situ synthesized Ti 2 AlC nanoparticles with a novel microstructure were fabricated. The …

The heat-affected coarsening of β-grains in titanium alloy produced by additive
manufacturing (AM), which would be important for the achievement of fine β-grain like …

Additive manufacturing, also known as 3D printing, overcomes many design and
manufacturing constraints to allow almost direct production of metals into complicated …

Laser cladding is one of the new techniques for additive manufacturing of metal alloy-based
electromagnetic shielding materials. However, it is generally difficult to prepare alloys with …

Grain structure control is essential in metal additive manufacturing. It is used to avoid
anisotropic mechanical properties, hot cracking and to increase the strength via the Hall …

Y 2 O 3 particles act as nucleation sites in the additive manufacturing (AM) process of
titanium alloy, making its microstructure refined and homogeneous, which is very beneficial …

Abstract A Ti− 6Al− 3Sn− 4Zr− 0.9 Mo− 0.4 Si− 0.4 Y− 0.5 B (wt.%) titanium alloy matrix
composite (TMC) with multiphase polymorphic TiB whiskers and Y 2 O 3 and (Ti, Zr) 5 Si 3 …

Single-layer and multilayer laser additive manufacturing (LAM) for TC11 alloy with different
Nd additions was conducted and the effect of Nd addition on microstructure and properties …

Abstract Wire-Arc Additive Manufacturing (WAAM) of large near-net-shape titanium parts has
the potential to reduce costs in aerospace applications. However, with titanium alloys, such …

FeCrAl-based materials have attracted ever-increasing attentions due to their excellent
resistances against high-temperature oxidation and stress-corrosion cracking, while …