In this paper, the recent progress on Ti6Al4V fabricated by three mostly developed additive
manufacturing (AM) techniques-directed energy deposition (DED), selective laser melting …

To realize the potential benefits of additive manufacturing technology in airframe and ground
vehicle applications, the fatigue performance of load bearing additively manufactured …

The advantage of 3D printing—that is, additive manufacturing (AM) of structural materials—
has been severely compromised by their disappointing fatigue properties,. Commonly, poor …

Laser-directed energy deposition (LDED) provides an attractive and cost-effective way to
remanufacture high-value engineering components. However, the LDED manufactured …

The present study reports on the impact of two different additive manufacturing routes, ie
selective electron beam melting (EBM) and selective laser melting (SLM) on the fatigue life …

Abstract In Additive Manufacture (AM), with the widely used titanium alloy Ti–6Al–4V, the
solidification conditions typically result in undesirable, coarse-columnar, primary β grain …

With titanium alloys, the solidification conditions in Additive Manufacturing (AM) frequently
lead to coarse columnar β-grain structures. The effect of geometry on the variability in the …

A major challenge for additive manufactured titanium blades is to improve an unfavorable
fatigue life. In this work, the rotating bending fatigue test was carried out on the laser direct …

Current understanding of the principles underlying the thermomechanical processing (TMP)
of α/β titanium alloys is reviewed. Attention is focused on the formulation of constitutive …

Wire and arc additive manufacturing (WAAM) is a novel manufacturing technique in which
large metal components can be fabricated layer by layer. In this study, the macrostructure …