Physical Metallurgy and Alloy Development
( 25 Modules )

Module #1
Introduction to Physical Metallurgy
Overview of physical metallurgy, importance in materials science, and overview of the course

Module #2
Atomic Structure and Bonding
Crystal structures, bonding in metals, and the role of electron sea model

Module #3
Imperfections in Metals
Types of imperfections, point defects, line defects, and surface defects

Module #4
Phase Diagrams and Equilibrium
Introduction to phase diagrams, equilibrium, and the role of Gibbs free energy

Module #5
Solidification Microstructure
Nucleation, growth, and solidification microstructure in pure metals and alloys

Module #6
Diffusion and Mass Transport
Fundamentals of diffusion, mechanisms, and applications in physical metallurgy

Module #7
Phase Transformations
Types of phase transformations, thermodynamics, and kinetics of phase changes

Module #8
Mechanical Behavior of Metals
Elasticity, plasticity, and fracture mechanics of metals

Module #9
Strengthening Mechanisms
Solid solution strengthening, grain boundary strengthening, and precipitation hardening

Module #10
Alloy Development and Design
Principles and approaches to alloy development, design of new alloys

Module #11
Ferrous Alloys
Overview of ferrous alloys, steel making, and properties of steel

Module #12
Non-Ferrous Alloys
Overview of non-ferrous alloys, copper, aluminum, and titanium alloys

Module #13
High-Temperature Alloys
Properties and applications of high-temperature alloys, nickel-based and cobalt-based alloys

Module #14
Casting and Solidification Processing
Casting methods, solidification processing, and defects in castings

Module #15
Welding and Joining
Welding processes, weld microstructure, and properties of welded joints

Module #16
Heat Treatment of Metals
Principles and applications of heat treatment, annealing, and hardening

Module #17
Surface Engineering
Surface modification techniques, coatings, and surface properties

Module #18
Corrosion and Environmental Effects
Corrosion mechanisms, types of corrosion, and environmental effects on metals

Module #19
Mechanical Testing and Characterization
Tensile testing, hardness testing, and microstructural characterization techniques

Module #20
Computational Tools in Physical Metallurgy
Introduction to computational tools, Thermo-Calc, and phase field modeling

Module #21
Alloy Development for Energy Applications
Alloy development for energy applications, fuel cells, and nuclear reactors

Module #22
Alloy Development for Aerospace Applications
Alloy development for aerospace applications, jet engine components, and spacecraft materials

Module #23
Alloy Development for Biomedical Applications
Alloy development for biomedical applications, implants, and medical devices

Module #24
Sustainability and Environmental Considerations
Sustainability in alloy development, life cycle assessment, and environmental impact

Module #25
Course Wrap-Up & Conclusion
Planning next steps in Physical Metallurgy and Alloy Development career

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Physical Metallurgy and Alloy Development ( 25 Modules )

Physical Metallurgy and Alloy Development
( 25 Modules )