Explores the composition, fabrication, and properties of Ni alloys, including single crystal parts, casting defects, microsegregation, heat treatment, and mechanical behavior.
Explores the use of Ni alloys in high-temperature applications like gas turbines and jet engines, covering their design, material requirements, and alloying effects.
Explores the processing and prevention strategies in single crystal Ni-base superalloys, emphasizing turbine blade production and challenges in alloy development.
Explores path collective variables for sampling structural phase transformations, focusing on solid-solid transformations and topologically close-packed phases in complex alloys.
Covers the formation, classes, and properties of intermetallic compounds, including specific examples like titanium aluminides, nickel aluminides, and iron aluminides.
Explores the design of high-performance alloys, the materials development process, multi-component systems, ICME, CALPHAD approach, and experimental phase diagram investigation.
Covers the composition, properties, and applications of aluminum alloys, including mechanical properties of heat-treatable and work-hardened alloys, and structural light alloys like aluminum, magnesium, and titanium.
Explores the properties and applications of titanium alloys, including aerospace and racing car uses, biocompatibility for implants, and crystal structures.
Covers the impact of oil prices on aluminum consumption, silicon properties in alloys, energy requirements for production, and aluminum alloy classification.
