The most popular additive manufacturing (AM) technologies to produce titanium alloy parts
are electron beam melting (EBM), selective laser melting (SLM) and directed energy …

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

TC4/NiTi multi-materials structure components have been successfully fabricated via multi-
wire arc additive manufacturing (MWAAM). Here we show the interface characteristics and …

Copper alloy–tungsten (CuA-W) material combination offers high-temperature damage
resistance and excellent plasma radiation resistance. At present, there is a lack of …

Abstract 316 and NiTi alloy powders were selected as raw materials to prepare functional
gradient materials (FGM) by Directed energy deposition (DED) on 316 substrates due to the …

Rapid hot-press sintering was employed to prepare the self-lubricating composites using Cu-
Sn alloy, Cu-coated graphite, and Cu-coated MoS 2 powder as raw materials. The effects of …

With the capability to build components with freeform geometries, laser powder bed fusion (L-
PBF) is considered as one of the most promising techniques for industrial applications …

Ag and Cu have different advantages and are widely used in key fields due to their typical
highly electrical and thermal conductive (HETC) properties. Laser powder bed fusion …

This work explored the interfacial microstructure, element diffusion, mechanical properties
and metallurgical bonding mechanism of 316L-AlSi10Mg multi-material parts fabricated by …

This article discusses the different forms of powder bed fusion (PBF) techniques, namely
laser powder bed fusion (LPBF), electron beam powder bed fusion (EB-PBF) and large-area …