Variety of implant materials have been employed in various disciplines of medical science
depending on the requirement of a particular application. Metals, alloys, ceramics, and …

Titanium alloys have been considered as unique materials for many years. Even their
microstructure and operational properties have been well known and described in details …

A new metastable β titanium alloy Ti–6Cr–5Mo–5V–4Al (Ti-6554) has shown good
application potential in large parts. In order to study the hot deformation behavior and …

Abstract Ti–6Al–4V parts obtained by selective laser melting typically have an acicular α′
martensitic microstructure whose ductility is low. Thus, post-heat treatments are useful for …

The results of untiring efforts by the research community over the past few decades have led
to the successful development and processing of a number of advanced titanium alloys with …

This work investigated the superelastic response of the low-modulus porous β type Ti-35Nb-
2Ta-3Zr scaffolds with different pore dimensions fabricated by laser powder bed fusion. The …

The so-called bimodal microstructure of Ti-6Al-4V alloy, composed of primary α grains (α p)
and transformed β areas (β trans), can be regarded as a “dual-phase” structure to some …

Owing to the great technical significance such as better balance of strength and toughness,
the conversion of lamellar to globular microstructure finds its great importance. In order to …

The growing concern for global sustainability highlights the need to address waste
generation in metal additive manufacturing (AM) processes. Even with proper planning …

Fully martensite microstructures transformed from refined β grains were obtained in a Ti-6Al-
4V alloy by rapid heat treatment (RHT) into a single β phase region followed by water …