Lecture 1 - Essential physical metallurgy concepts : Part 1 - Microstructure | Phase
Lecture 2 - Essential physical metallurgy concepts : Part 2 - Types of phases | Chemical order | Phase Equilibria
Lecture 3 - Essential physical metallurgy concepts : Part 3 - Phase diagrams - Unary | Isomorphous
Lecture 4 - Essential physical metallurgy concepts : Part 4 - Phase diagram Information
Lecture 5 - Essential physical metallurgy concepts : Part 5 - Phase diagarms - Transformations
Lecture 6 - Essential physical metallurgy concepts : Part 6 - Ternary phase diagrams: isothermal sections
Lecture 7 - Essential physical metallurgy concepts : Part 7 - Phase diagrams: Extended and emergent phases, vertical sections
Lecture 8 - Essential physical metallurgy concepts : Part 8 - Phase diagrams: Reactions, Liquidus projections
Lecture 9 - Essential physical metallurgy concepts : Part 9 - Phase fraction plots, Mechanisms and Kinetics of Transformations
Lecture 10 - Experimental methods of phase diagram determination - Cooling curve method
Lecture 11 - Essential concepts of thermodynamics : Part 1 - Scope, State, State properties
Lecture 12 - Essential concepts of thermodynamics : Part 2 - Temperature, Heat capacity, Internal energy
Lecture 13 - Essential concepts of thermodynamics : Part 3 - The first law, Reversible and Irreversible processes
Lecture 14 - Essential concepts of thermodynamics : Part 4 - Isothermal and Adiabatic processes, Path quantities
Lecture 15 - Essential concepts of thermodynamics : Part 5 - Engine, Entropy, Clausius inequality, The second law
Lecture 16 - Essential concepts of thermodynamics : Part 6 - Statistical thermodynamics, Meaning of entropy
Lecture 17 - Essential concepts of thermodynamics : Part 7 - Types of Entropy, Combined laws, Enthalpy and Gibbs energy
Lecture 18 - Thermodynamics of Materials : Part 1 - Lattice stability, Enthalpy of mixing
Lecture 19 - Thermodynamics of Materials : Part 2 - Interaction Parameter, Entropy, Gibbs Energy and Chemical Potential
Lecture 20 - Thermodynamics of Materials : Part 3 - Chemical potential | Activity | Solutions
Lecture 21 - Thermodynamics of Materials : Part 4 - G-x plots | Common tangent construction
Lecture 22 - Thermodynamics of Materials : Part 5 - G-x diagrams | G description
Lecture 23 - Thermodynamics of Materials : Part 6 - G-x curves | Driving force | T0 curve
Lecture 24 - Thermodynamics of Materials : Part 7 - G-x curves exercises | Gibbs phase rule
Lecture 25 - Computational Thermodynamics : Part 1 - Introduction, unary models and data
Lecture 26 - Computational Thermodynamics : Part 2 - Binary and higher order models, Minimization
Lecture 27 - Hands-on Thermodynamic Calculations : Part 1 - Software, Modes, Single point calculations
Lecture 28 - Hands-on Thermodynamic Calculations : Part 2 - Unary G vs T, Binary phase fraction plot
Lecture 29 - Hands-on Thermodynamic Calculations : Part 3 - Binary, Ternary and Metastable Phase Diagrams
Lecture 30 - Hands-on Thermodynamic Calculations : Part 4 - Ternary Vertical, Pseudo binary section, Console Mode
Lecture 31 - Hands-on Thermodynamic Calculations : Part 5 - Vertical sections
Lecture 32 - Hands-on Thermodynamic Calculations : Part 6 - Quternary and higher order diagrams
Lecture 33 - Hands-on Thermodynamic Calculations : Part 7 - Property diagrams
Lecture 34 - Hands-on Thermodynamic Calculations : Part 8 - T0 curve
Lecture 35 - Hands-on Thermodynamic Calculations : Part 9 - Scheil solidification
Lecture 36 - Thermodynamic assessment : Part 1 - Outline of the method, Input thermochemical data
Lecture 37 - Thermodynamic assessment : Part 2 - Input thermochemical data
Lecture 38 - Thermodynamic Assessment : Part 3 - Input phase equilibria data, non-isothermal methods
Lecture 39 - Thermodynamic assessment : Part 4 - Input phase equilibria data, isothermal methods
Lecture 40 - Thermodynamic assessment : Part 5 - Input data collection, critical evaluation
Lecture 41 - Thermodynamic assessment : Part 6 - Models 1
Lecture 42 - Thermodynamic assessment : Part 7 - Models 2
Lecture 43 - Thermodynamic Assessment : Part 8 - Optimization guidelines
Lecture 44 - Thermodynamic Assessment : Part 9 - Hands-on G Optimization
Lecture 45 - Thermodynamic Assessment : Part 10 - Database compilation
Lecture 46 - Kinetics of Materials : Part 1 - Diffusion, Fick's laws
Lecture 47 - Kinetics of Materials : Part 2 - Phase equilibria and diffusion, Mobility
Lecture 48 - Computational Thermokinetics: Introduction and mobility assessment
Lecture 49 - Hands-on kinetic simulation : Part 1 - Homogenization
Lecture 50 - Hands-on kinetic simulation : Part 2 - Moving phase boundary problems
Lecture 51 - Hands on kinetic simulation : Part 3 - Diffusion couple, Non-isothermal diffusion
Lecture 52 - Hands on kinetic simulation : Part 4 - Modified Scheil: Back diffusion, Solute trapping
Lecture 53 - Essential concepts of overall kinetics - Nucleation, Growth
Lecture 54 - Hands-on kinetic simulation : Part 5 - Overall kinetics, TTT
Lecture 55 - Hands-on kinetic simulation : Part 6 - Precipitation aging
Lecture 56 - Compositional design - High-throughput Calphad
Lecture 57 - Insights from Calphad for alloy design and characterization
Lecture 58 - Material properties in Calphad spirit
Lecture 59 - Calphad - Size effects, Electrochemistry, Process metallurgy
Lecture 60 - Calphad - Summary, history and future
