Thermal Stability and Oxidation Kinetics of MAX Phases provides techniques for improving the thermal stability of MAX phases, enabling their enhanced performance in extreme environments. The book provides a general overview of the physical and mechanical properties of MAX phases, including techniques for their synthesis and characterization. Oxidation characteristics, thermal stability, and decomposition kinetics are then covered for many individual MAX phases, including titanium silicon carbide, titanium aluminum carbide, titanium aluminum nitride, chromium aluminum carbide, and many more. In addition, their mechanical behaviors in vacuum settings and argon gas environments, in particular, are covered at length, and the application of these materials in aerospace, nuclear, and other settings is also discussed. Outlines techniques for improving the thermal stability of MAX phases, enabling more effective performance of these materials in extreme environments Discusses the physical and mechanical properties of MAX phases Studies the oxidation characteristics and decomposition kinetics of different MAX phases in various environments