Multi-material components featuring high performance and design flexibility have attracted
considerable attention, providing solutions to meet the performance demands of high-end …

Aerospace industries invest a significant amount of resources to meet one common goal,
that is, to make the aircraft fly. To keep down its 'buy-to-fly'ratio, researchers have been …

The satisfactory integrated performance of titanium matrix composites (TMCs) has rendered
them promising candidates in significant industries including aerospace and biomedicine …

Optimizing forming accuracy and improving deposition rate are the research hotspots in
directed energy deposition (DED) of the aluminum alloy structures with medium-to-large …

Wire arc additive manufacturing (WAAM) is an important manufacturing technology for
fabricating large-size titanium alloy parts, which has important application prospects in …

Fused deposition modeling (FDM), an additive manufacturing (AM) technique, is capable of
printing electronic devices by employing functional filaments. Fabrication of polymer …

In view of the key issue of high-quality wire-arc-additive-manufacturing (WAAM) of large
metal components, this paper has devised a suite of multi-arc collaborative additive …

With the advantages of high material utilization and freedom of structural form, wire and arc
additive manufacturing (WAAM) is a feasible solution to achieve fully automated construction …

In the laser powder bed fusion (LPBF) process, powders exhibit different behaviors based
on process conditions and material properties. Some powders may melt and form deposits …

Functional gradient materials (FGMs) have garnered increasing interest for their potential in
material and structural design. Additive manufacturing, as a kind of free manufacturing and …