Prediction and Experimental Evaluation of Mechanical Properties of SiC-Reinforced Ti-4.25Al-2V Matrix Composites Produced by Laser Direct Energy Deposition

Abstract: An important direction in the development of additive technologies is associated with the addition of ceramic particles (oxide, carbide, boride, and nitride ceramics) to metal powders. The prediction of the physical and mechanical characteristics of SiC-particle-reinforced composite materials (PRCMs) in comparison with experimental results was studied. A near-α Ti-4.25Al-2V titanium-alloy-based composite reinforced by 1 vol.% of SiC ceramic particles was produced using laser direct energy deposition. A multisc… Show more

“…The development trend of advanced particle-reinforced metal matrix composites aims at the bottleneck problem of common majors in the fields of national aerospace technology, electronic communication, and transportation [1][2][3][4]. HEA-particle-reinforced Al matrix composites (AMCs), as a kind of advanced composite, show huge potential in many industrial applications [5][6][7][8][9].…”

Revealing the Interface Characteristic and Bonding Ability of CoCrFeNi High Entropy Alloy/Al Composite by First-Principles Calculations

“…The development trend of advanced particle-reinforced metal matrix composites aims at the bottleneck problem of common majors in the fields of national aerospace technology, electronic communication, and transportation [1][2][3][4]. HEA-particle-reinforced Al matrix composites (AMCs), as a kind of advanced composite, show huge potential in many industrial applications [5][6][7][8][9].…”

Revealing the Interface Characteristic and Bonding Ability of CoCrFeNi High Entropy Alloy/Al Composite by First-Principles Calculations