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Kinetic Modeling and Simulation: Solidification and Diffusion
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Related lectures (30)
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Solidification Models: Equilibrium & Non-equilibrium
Explores equilibrium and non-equilibrium solidification models, diffusion simulation in brazing, multicomponent diffusion theory, kinetic modeling, and precipitation reactions.
Diffusion Coefficient
Explores the determination of diffusion coefficient in different states of matter and the factors influencing the diffusion process.
Mass Transport: Fick's Law of Molecular Diffusion
Covers mass transport through molecular diffusion, explaining Fick's first law and diffusion coefficient values for various materials.
Transport Phenomena: Introduction
Introduces transport phenomena, covering diffusion and thermal conduction in daily life.
Irreversible Processes, Transport
Explores irreversible processes and transport phenomena related to heat, pressure, and chemical potential differences in isolated systems.
Diffusion in Gases, Liquids, Solids
Covers the diffusion coefficient in gases, liquids, and solids, including the Matano method and atomic theory of diffusion.
Transport Phenomena: Introduction
Covers the introduction to transport phenomena, diffusion, and thermal conduction in daily life.
Thermodynamic Functions and Equilibria: Mathematical Tools
Discusses thermodynamic functions, their mathematical tools, and key relationships between state variables in thermodynamics.
Computational Materials Science: CALPHAD
Explores the principles of Computational Materials Science, emphasizing CALPHAD and the design of high-performance alloys.
Computational Alloy Design
Explores the design of high-performance alloys, the materials development process, multi-component systems, ICME, CALPHAD approach, and experimental phase diagram investigation.
