A critical review of fabrication routes and their effects on mechanical properties of AMMCs

“…As the tool moves along the joint line, it mechanically mixes the material, resulting in a homogenous microstructure. 8,9 The FSP offers several advantages for the development of magnesium-based alloys. Firstly, it avoids the issues associated with traditional fusion-based processes, such as porosity and solidification-related defects.…”

The behaviour of AZ91 magnesium-based alloy with Ni–Al₂O₃ reinforcement

“…As the tool moves along the joint line, it mechanically mixes the material, resulting in a homogenous microstructure. 8,9 The FSP offers several advantages for the development of magnesium-based alloys. Firstly, it avoids the issues associated with traditional fusion-based processes, such as porosity and solidification-related defects.…”

The behaviour of AZ91 magnesium-based alloy with Ni–Al₂O₃ reinforcement

“…Previous studies have shown that Al 6061 reinforced with Si 3 N 4 enhances corrosion resistance, wear resistance and metallurgical stability at high temperatures making this composite suitable for high wear and thermal-resistant applications [5]. Stir casting is the liquid state fabrication technique found to be a reliable production method for Al-Si 3 N 4 MMC offers good mechanical and tribological properties [3][4][5][6][7]. Stir casting produces outstanding characteristics in Al-Si 3 N 4 with regulated process conditions, and its low material density of 3.3 g/cm 3 and heat conductivity of 170-230 W/mk make it excellent for applications where weight is an issue [3,8].…”

The Effect of Process Parameters on Quality Characteristics in the Drilling of Aluminium–Metal Matrix Composites

High Entropy Alloy Ni-Fe-Ti-Hf-Nb Addition Effect on Microstructure, Mechanical and Wear Behaviour of A356 Composite Fabricated by FSP Technique