Covers the fundamentals of steel metallurgy, high-performance steel classes, steelmaking process, Fe-C diagram, phases in steel, alloying elements, and heat treatment of steels.
Delves into the mechanical properties and strengthening mechanisms of alloys, including dislocations, slip systems, and various strengthening mechanisms.
Covers the fundamentals of steel metallurgy, including high-performance steel classes, steelmaking process, importance of steels, classification, alloying elements, phases, and heat treatment.
Explores advanced high strength steels, including TRIP and TWIP steels, their properties, microstructures, and applications in modern car body structures.
Explores the use of Ni alloys in high-temperature applications like gas turbines and jet engines, covering their design, material requirements, and alloying effects.
Covers advanced high strength steels, focusing on TRIP/TWIP effects, Mn content influence, transformation behavior, stacking fault energy, mechanical properties, and applications in car body structures.
Explores the composition, fabrication, and properties of Ni alloys, including single crystal parts, casting defects, microsegregation, heat treatment, and mechanical behavior.
Explores the properties and applications of titanium alloys, including aerospace and racing car uses, biocompatibility for implants, and crystal structures.
