Direct energy deposition (DED) is an additive manufacturing method that allows repairing
the broken parts and building the meter-scale samples. However, the printing of large parts …

Direct energy deposition (DED) is a promising additive manufacturing technique in the area
of aerospace, automotive, shipbuilding and medical industries. DED allows producing large …

Laser additive manufacturing of titanium (Ti) alloys results in a microstructure that differs
from traditional manufacturing, affecting the subsequent alloy's performance. This paper …

The most popular additive manufacturing (AM) technologies to produce titanium alloy parts
are electron beam melting (EBM), selective laser melting (SLM) and directed energy …

The directed energy deposition (DED) process can be employed to build net shape
components or prototypes starting from powder or wires, through a layer-by-layer process …

Process optimization of additively manufactured Ti–6Al–4V alloy is an important aspect of
the production of engineered, high-performance parts for the aerospace and medical …

Abstract Titanium alloy Ti-1Al-8V-5Fe (Ti-185) has essentially remained an experimental
alloy since its invention because of the formation of iron-stabilized beta-flecks in …

Directed energy deposition (DED) parts are generated via concentrated energy source by
melting powder during layer by layer deposition. The size of grains in structure built parts is …

This work deals with the effect of different heat treatments on directed energy deposition
(DED)-produced Ti-6Al-4 V samples. Annealing treatments at 1050° C followed by different …

The microstructure formation in the Ti64 alloy with the addition of different alloying elements
is extensively researched to enhance the mechanical properties of the alloy, especially …