The authors review the recent advances in the development of high‐strength titanium alloys.
First, they summarize conventional strengthening approaches and their mechanisms …

In the past two decades, the advent of metal additive manufacturing (AM) or three-
dimensional (3D) printing technology has led to exciting breakthroughs in the metallurgy of …

The main objective is to carry out several heat treatments to change the phases and some
characteristics of the MAO coatings formed in Ti–25Ta–25Zr alloy in order to understand …

The development of metals tailored to the metallurgical conditions of laser-based additive
manufacturing is crucial to advance the maturity of these materials for their use in structural …

The aim of this study was to form Fe 2 Ti and TiB 2 phases on the steel surface in-situ using
ferroalloy starting materials and to investigate the changes in the surface properties such as …

In this study, we investigated the microstructures, hydrogen absorption kinetics, and oxide
layers of TiFe and Ti 1.2 Fe hydrogen storage alloys. Whereas the TiFe alloy has a single …

The surface and internal deoxidation behavior of hydrogenation-dehydrogenation titanium
alloy powder deoxidized by Ca vapor was investigated. Comparison of the deoxidation …

In this paper, we report the effect of adding Zr+ V or Zr+ V+ Mn to TiFe alloy on
microstructure and hydrogen storage properties. The addition of only V was not enough to …

From the perspective of biomechanics and forming technology, Ti− Fe− Zr− Sn− Y eutectic
alloy was designed using a “cluster-plus-glue-atom” model, and then the alloy was prepared …

This study presents the phase analysis, microstructural characteristics, and mechanical
property evaluation of the as-cast and quenched Ti–15Mo–xFe alloys with high iron content …