Inter-layer plastic deformation is an effective method to improve the mechanical properties of
wire arc additive manufacturing (WAAM) components. In this study, the inter-layer …

Recent strides in wire+ arc additive manufacturing (WAAM) of aluminum components
present unique chances for more enhancements in their properties. More studies were done …

Wire and arc additive manufacturing (WAAM) is the most advanced technique used to
fabricate desired parts by depositing material in layer-by-layer sequence. WAAM can …

Despite the rapid growth in the past decade, the industrial adoption of additive
manufacturing has not still been achieved due to certain limitations. A recent trend to …

Additive manufacturing has advantages of cutting the time from design to making new parts
but it suffers from metallurgical defects such as porosity. For example, wired arc additive …

Wire arc additive manufacturing (WAAM) technique became an emerging manufacturing
technology because of its cost-effective in creating large-scale metal parts with moderately …

Metal additive manufacturing (AM) is capable of producing complex parts, using a wide
range of functional metals that are otherwise very difficult to make and involve multiple …

Laser shock peening is combined with laser additive manufacturing to modify the surface
microstructures and mechanical properties of as manufactured Ti6Al4V titanium alloy …

Extreme performance requirements are demanding materials with functional microstructure
and properties. Additive manufacturing (AM) is an efficient method to fabricate functionally …

The application of wire+ arc additively manufactured (WAAM) aluminum alloys has been
restricted by the porosity defect, which is generally detrimental to the mechanical properties …