In this review the authors provide a comprehensive insight into additive manufacturing
process mechanics which explore how thermodynamics give rise to characteristic …

Additive manufacturing is an emerging technique for manufacturing complex shapes rather
than traditional manufacturing procedures due to the tool free manufacturing method. The …

It is widely known that the coarse columnar grains and grain boundary α phases are
inevitably formed during the wire-based additive manufacturing (AM) process, which usually …

In this study, the creep behavior of Ti–6Al–4V fabricated by electron beam directed energy
deposition was investigated. The results showed that the creep behavior was controlled by a …

In past years, machining processes have been required when fabricating the complex
Inconel 718 parts, and these processes cause undesired tensile residual stresses. Inconel …

The aim of this study was to reduce the number of defects, refine the grain size, and improve
the mechanical properties of Ti–6Al–4V. We investigated the effect of interpass micro-rolling …

A novel coaxial electron beam wire feeding additive manufacturing technology (CAEBWAM)
was proposed in our previous work to refine the microstructure and improve the mechanical …

Additive manufacturing has brought revolutionary changes in manufacturing sector by
allowing the production of intricate components that were once unattainable using traditional …

Electron beam additive wire-feed manufacturing of Cu-3wt.% S-0.8 wt.% Mn bronze thin wall
on a stainless steel substrate has been carried out at heat input levels of 0.19, 0.25, and …

Wire-feed electron beam additive manufacturing (WFEBAM) was utilized to repair the
damaged Ti6Al4V (abbreviated as Ti64) alloy with B and Y modified Ti64 wire, and the effect …