This paper aims to review some important microstructural defects arising in the alloys
manufactured by selective laser melting (SLM) or laser powder bed fusion (LPBF). During …

This study aims to investigate the microstructure and electrochemical behavior of the laser
powder bed fusion (LPBF-) and electron beam melting (EBM-) manufactured Ti-6Al-4 V alloy …

The present study investigates the different post-heat treatments (PHTs)(850° C, 950° C, and
1050° C) to tailor the microstructure and mechanical properties of laser powder bed fusion …

Ti6Al4V alloy (Ti64) is a popular material used in the aerospace, medical, and automotive
industries due to its excellent mechanical properties. Laser Powder Bed Fusion (LPBF) is a …

A major limitation of the laser powder bed fusion (LPBF) process for Ti–6Al–4V is the
anisotropic mechanical response caused by directional solidification during fabrication. This …

The emergence of powder bed fusion in recent years has made it one of the most demanded
additive manufacturing technologies for Ti6Al4V alloys in the biomedical and aerospace …

Since a few decades, the aircraft industry has shifted its preference for metal parts to titanium
and its alloys, such as the high-strength titanium grade 5 alloy. Because of titanium grade 5 …

Plasma electrolytic oxidation was carried out on conventional and selective laser melted Ti-
6Al-4V alloy in electrolytes with different concentrations of sodium hexametaphosphate …

Ti-6Al-4V with its eclectic array of excellent properties along with the combination of
meticulous precision and flexibility offered by the laser powder bed fusion (LPBF) …

The paper presents experimental studies on laser cladding synthesis of a titanium matrix
composite based on Ti64 titanium alloy and TiB2 ceramic reinforcement. The weight …