Comprehensive guides covering fundamental materials science concepts, from crystal structures to phase transformations.
Learn the fundamentals of crystal structures, unit cells, the seven crystal systems, Miller indices notation, and d-spacing calculations.
Understanding binary and ternary phase diagrams, lever rule calculations, and phase equilibria in materials systems.
Fick's laws, diffusion mechanisms, temperature dependence, and practical applications in materials processing.
Nucleation and growth theory, TTT and CCT diagrams, heat treatment processes, and microstructure development.
Stress-strain relationships, elastic and plastic deformation, strengthening mechanisms, and failure modes.
Dislocation types, Burgers vectors, slip systems, and the role of dislocations in plastic deformation.