Additive manufacturing (AM) plays a crucial role in the manufacturing and development of
advanced materials including titanium alloys for engineering applications. During the last …

Laser powder bed fusion (L-PBF) is an additive manufacturing technology that is gaining
increasing interest in aerospace, automotive and biomedical applications due to the …

Post-processing methods can efficiently reduce the negative effects of the internal and
surface defects in as-built laser powder bed fusion materials. In this study, the influence of …

This study aims at assessing the effect of solution heat treatment (at a temperature just
below the eutectic temperature) followed by various cooling rates on the microstructure and …

The present study comprehensively a investigates the correlations between the heat
treatment process parameters (temperature, time, and cooling rate) with the microstructure …

The build quality of laser Powder Bed Fusion (PBF) components largely depends on printing
issues such as inter-track voids and undesired microstructure. In this work, a comprehensive …

As a commonly used engineering material, the mechanical properties of titanium alloy under
dynamic loads are closely related to their microstructure. In this work, the effects of solution …

Ti6Al4V (Ti64) alloys manufactured by selective laser melting (SLM) are well known for their
susceptibility to failure at a low ductility of less than 10% due to the formation of an (α′) …

Selective laser melting (SLM) is an additive manufacturing process that offers efficient
manufacturing of complex parts with good mechanical properties. For SLM, process …

This work assumed that the stress-life behaviors of defect-laden materials converge at a
certain low life cycle and attempted to estimate fatigue life by applying relative knock-downs …