The poor mechanical and tribological properties limit the higher requirements of aluminum
alloys in engineering and industrial applications, which leads to the rapid development of …

In situ composite manufacture is an approach to improve interfacial adhesion between
matrix and reinforcements, in which reinforcements are synthesized along composite …

In this paper, in-situ Al 3 Ti-reinforced Al–Cu alloys were fabricated by Ti alloying and exhibit
outstanding high-temperature properties. The results show that when the volume fraction of …

Aluminum matrix composites (AMCs), incorporating Zirconium Nitride (ZrN) as reinforcing
additives, demonstrate immense promise for applications in aerospace, automotive, and …

Abstract Elemental powders of Al, Ti, Sc, and Zr are blended to create binary Al-0.5 Ti and Al-
0.25 Ti-0.25 Zr (at%) alloys via laser powder-bed fusion (L-PBF), with Al-1Ti and Al-0.25 Sc …

In this work, a fundamental possibility of obtaining a high-entropy ceramic (HfTiCN)-TiB 2
composite material by the coupled self-propagating high-temperature synthesis is shown. To …

This study focuses on the manufacturing of porous materials using the directed energy
deposition (DED) technique, which is a 3D printing technique. A foaming agent was mixed …

In recent years, biodegradable Zn-based materials became a hopeful approach for new
generation biomedical implants due to their acceptable mechanical performance, moderate …

This study investigates the compressive properties of AlSi10Mg foams additively
manufactured with different foaming agents: TiH 2 and ZrH 2. The results of the compression …

This study fabricated aluminum (AlSi10Mg) foam using a directed energy deposition (DED)
process. The foaming properties and microstructures are comparatively analyzed for …