Introduction to the Max Phases |
Short History |
Why they are Unique and Exciting |
Theoretical AB Initio Calculations |
Elastic Properties |
Measured Values: Young's, Shear and Bulk Moduli |
Calculated Values and Elastic Tensors |
Comparison of Theory and Experiment |
Electrical Properties |
Conductivity |
Hall Effect |
Thermopower |
Magnetoresistance |
Evidence for Compensated Conductivity |
Summary of n, p and Mobility Values |
Thermal Properties |
Thermal conductivity: Evidence for Rattling, Effect of Defects |
Heat Capacity |
Decomposition Temperatures |
Thermal Expansion and Thermal Expansion Anisotropies |
Chemical Properties |
Oxidation |
Reaction with Molten Metals |
Mechanical Properties at Room Temperature |
Compressive and Tensile Behavior |
Fracture Toughness |
Hardness and its Anisotropy |
Damage Tolerance |
Mechanical Properties at High Temperatures |
Strain Rate Sensitivity |
Tensile and Compressive Creep |
Kinking Non-Linear Elasticity |
Model |
Results: Room Temperature, High Temperatures, Damping, Interactions of Dislocations with Ultrasound |
Max Composites |
Applications |
Introduction to the Max Phases |
Short History |
Why they are Unique and Exciting |
Theoretical AB Initio Calculations |
Elastic Properties |
Measured Values: Young's, Shear and Bulk Moduli |