The uniaxial compression tests with respect to the different loading directions (ie, parallel,
and perpendicular to the building direction) were performed to investigate the anisotropic …

A biomedical Ti15Mo (wt%) alloy with a relative density of 99.9% was successfully fabricated
using selective laser melting. Characterization of its microstructure revealed that it …

In the present work, two post-processes, the 800° C and 950° C for 4 h annealing below β
transus, were designed to improve the performance of selective laser melted (SLM) Ti–6Al …

In this paper, laser powder-bed fusion (L-PBF) additive manufacturing (AM) with a high-
temperature inductive platform preheating was used to fabricate intermetallic TiAl-alloy …

A physically-based, mixed-phase structure-property model is presented for microstructure-
sensitivity of tensile stress-strain response, including yield stress, ultimate tensile strength …

Abstract Ti-6Al-4V alloy produced by laser-based powder bed fusion (LPBF) technique
consists of an α′-martensite phase which is usually brittle and hence required …

In recent years, the concept of hybrid manufacturing has been proposed to heal the defects
in additive manufactured (AM) materials, taking advantage of both the AM technique and …

As a superior surface treatment technology, laser shock processing (LSP) is of great value
for improving the fatigue performance of additively manufactured metallic components. In …

Residual stress and distortion are inevitable during metal selective laser melting (SLM)
process due to the high thermal gradient. Based on an experimental investigation and a …

The effect of manufacturing parameters on mechanical and corrosion resistance is
investigated using tensile tests and electrochemical experiments for selective laser‐melted …