Delves into the mechanical properties and strengthening mechanisms of alloys, including dislocations, slip systems, and various strengthening mechanisms.
Explores the properties, applications, classification, and recent developments of aluminum and magnesium alloys, as well as their microstructure, mechanical properties, corrosion resistance, and biodegradable applications.
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 properties and applications of titanium alloys, including aerospace and racing car uses, biocompatibility for implants, and crystal structures.
Covers titanium metallurgy, including production processes, phase diagrams, and interstitial solid solutions, highlighting the technical importance and cost factors.
Explores the processing and prevention strategies in single crystal Ni-base superalloys, emphasizing turbine blade production and challenges in alloy development.
Explores metal plasticity mechanisms, including hardening by solid solution and precipitation, dislocation forests, and polymer behavior in relation to temperature and deformation speed.
Explores the mechanical properties and microstructure of aluminum alloys, focusing on the Al-Mg system and the effects of dislocations, grain size, and heat treatment.
