Purpose This study aims to demonstrate a modified wire arc additive manufacturing (AM)
named non-transferring arc and wire AM (NTA-WAM). Here, the build plate has no electrical …

With the development of laser surface modification techniques like direct laser metal
deposition (DLMD), titanium alloy (TI6Al4V) may now have its entire base metal …

The discovery of metal additive manufacturing (MAM) has caused a significant revolution
across multiple industries, enabling the production of prototypes and high-quality products …

This study examines the interface layer between a high-strength low-alloy steel and an
overlaying austenitic stainless steel as deposited through wire arc additive manufacturing in …

Electron beam additive manufacturing from dissimilar metal wires was used to intermix 5, 10
and 15 vol.% of Ti-Al-Mo-ZV titanium alloy with CuAl9Mn2 bronze on a stainless steel …

This article presents innovative approaches for managing residual stresses and distortion in
additive manufacturing (AM) of metal components (baseplate material: EN8; filler wire …

Purpose The purpose of this study is to investigate the deposition of SS–Al transitional wall
using the wire arc directed energy deposition (WA-DED) process with a Cu interlayer. This …

Fabricating bimetallic structures using various additive manufacturing processes is an
ingenious way to integrate different material properties in a single component. This study …

The development of functionally graded structures through metal additive manufacturing
routes is becoming a new trend in the scientific community. Owing to the manufacturing …

Titanium/steel bimetallic sheets are extensively employed in engineering applications due to
their excellent cost performance and high corrosion resistance. However, the interface …