Heat Transfer FundamentalsCovers the basics of heat transfer, including conduction, convection, and radiation, as well as the principles of thermodynamics and phase changes.
Heat Transfer PhenomenaExplores the applications of the Fourier equation in heat transfer phenomena, covering conduction, convection, and radiation.
Fourier Equation in 2DExplores the Fourier equation in 2D for heat conduction in various scenarios, using the separation of variables method.
Radiation ExchangeExplores radiation exchange, heat transfer, emission, absorption, and laws governing thermal radiation between different surfaces and materials.
Mass Transfer and DiffusionExplores mass transfer, diffusion, and transport forces, covering Fick's equations and Nernst-Einstein equation in various materials.
Diffusion MechanismsExplores diffusion mechanisms in crystalline solids, covering cubic and non-cubic structures, temperature effects, and self-diffusion in metals.
Self-Diffusion in MetalsExplores self-diffusion in metals, covering temperature and pressure influence, empirical correlations, and crystal defects.
Heterodiffusion in MetalsExplores heterodiffusion in metals, discussing solutes at infinite dilution and their correlation with the valence of the solvent-solute.
Diffusion in Solids: HeterodiffusionExplores heterodiffusion in solids, discussing electrolyte diffusion, solute diffusion in crystals, crystal structures, and diffusion coefficients.
Diffusion in AlloysExplores diffusion in alloys, phase separation, dislocation movement, chemical diffusion in ionic crystals, and nickel oxidation.
