A review on wire and arc additive manufacturing of titanium alloy
Wire and arc additive manufacturing (WAAM) is considered to be an economic and efficient
technology that is suitable to produce large-scale metallic components. In the past few …
technology that is suitable to produce large-scale metallic components. In the past few …
[HTML][HTML] Metal additive manufacturing in structural engineering–review, advances, opportunities and outlook
L Gardner - Structures, 2023 - Elsevier
Although still in its infancy, metal additive manufacturing (AM) or 3D printing has now arrived
at a scale suitable for use in construction. The new technology offers the potential for …
at a scale suitable for use in construction. The new technology offers the potential for …
Wire arc additive manufacturing: a comprehensive review and research directions
LP Raut, RV Taiwade - Journal of Materials Engineering and Performance, 2021 - Springer
Over the past years, the demand for the wire arc additive manufacturing (WAAM) is
potentially increased, and it has become a promising alternative to subtractive …
potentially increased, and it has become a promising alternative to subtractive …
Temperature-dependent modified inherent strain method for predicting residual stress and distortion of Ti6Al4V walls manufactured by wire-arc directed energy …
As an additive manufacturing (AM) process, wire-arc directed energy deposition (DED) has
drawn increasing attention due to its ability to print large metal parts. However, the heat …
drawn increasing attention due to its ability to print large metal parts. However, the heat …
Applications of wire arc additive manufacturing (WAAM) for aerospace component manufacturing
H Pant, A Arora, GS Gopakumar, U Chadha… - … International Journal of …, 2023 - Springer
Wire arc additive manufacturing (WAAM) is an emerging technology for metal processing
that offers many advantages for aerospace-grade production. It provides significant design …
that offers many advantages for aerospace-grade production. It provides significant design …
[HTML][HTML] Effects of high deposition rate during cold metal transfer additive manufacturing on microstructure and properties of Ti-6Al-4V
Cold metal transfer (CMT)-based wire-arc directed energy deposition (waDED) is a high-
speed deposition process capable of manufacturing Ti-alloys with high production rates and …
speed deposition process capable of manufacturing Ti-alloys with high production rates and …
Analysis and compensation of shrinkage and distortion in wire-arc additive manufacturing of thin-walled curved hollow sections
Curved hollow sections are used in numerous applications from lightweight space frames to
pipings in process engineering. In conventional manufacturing, such structures are …
pipings in process engineering. In conventional manufacturing, such structures are …
[HTML][HTML] Influence of deposition strategies on residual stress in wire+ arc additive manufactured titanium Ti-6Al-4V
Wire+ arc additive manufacturing (WAAM) is a modern manufacturing process that has
opened new possibilities for rapid builds and reductions in material wastage. This paper …
opened new possibilities for rapid builds and reductions in material wastage. This paper …
[HTML][HTML] Literature Review on Thermomechanical Modelling and Analysis of Residual Stress Effects in Wire Arc Additive Manufacturing
FD Gurmesa, HG Lemu - Metals, 2023 - mdpi.com
The wire arc additive manufacturing (WAAM) process is a 3D metal-printing technique that
builds components by depositing beads of molten metal wire pool in a layer-by-layer style …
builds components by depositing beads of molten metal wire pool in a layer-by-layer style …
[HTML][HTML] Spatiotemporal evolution of stress field during direct laser deposition of multilayer thin wall of Ti-6Al-4V
The present work seeks to extend the level of understanding of the stress field evolution
during direct laser deposition (DLD) of a 3.2 mm thick multilayer wall of Ti-6Al-4V alloy by …
during direct laser deposition (DLD) of a 3.2 mm thick multilayer wall of Ti-6Al-4V alloy by …