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Materials Science

Materials Science. Instructor: Prof. S. K. Gupta, Department of Applied Mechanics, IIT Delhi. This course covers lessons in internal energy enthalpy, crystal geometry and structure, non-crystalline solids, phase diagrams and transformation, plastic deformation, conductors, resistors, superconductors and semiconductors. (from nptel.ac.in)

Introduction


Lecture 01 - Introduction
Lecture 02 - Internal Energy Enthalpy
Lecture 03 - Crystal Geometry: Space Lattices
Lecture 04 - Crystal Geometry: Crystal Structures, Crystal Directions and Planes
Lecture 05 - Crystal Structure Determination, X-ray Diffraction (Powder Method)
Lecture 06 - Structure of Solid Materials: Covalently Bonded Solids
Lecture 08 - Close Packing of Spheres of Equal Size (cont.)
Lecture 09 - Structure of Solid Materials: Non-directional Bonding, Ionically Bonded Crystals
Lecture 10 - Non-crystalline Solids: Polymers
Lecture 11 - Polymers (cont.)
Lecture 12 - Crystal Imperfections: Point Imperfections
Lecture 13 - Crystal Imperfections: Dislocations
Lecture 14 - Crystal Imperfections: Dislocations (cont.)
Lecture 15 - Crystal Imperfections: Dislocations (cont.), Surface Imperfections
Lecture 16 - Phase Diagrams: Phase, Phase Equilibrium, Degrees of Freedom
Lecture 17 - Phase Diagrams: Binary Diagrams
Lecture 18 - Phase Diagrams: Eutectic, Eutectoid, Peritectic and Peritectoid Diagrams
Lecture 19 - Phase Diagrams: Hypoeutectoid Alloy
Lecture 20 - Diffusion in Solids
Lecture 21 - Diffusion in Solids (cont.)
Lecture 22 - Phase Transformations: Homogeneous Nucleation
Lecture 23 - Phase Transformations: Heterogeneous Nucleation, Solidification Process
Lecture 24 - Phase Transformations: Glass Transition, Transformations in Steels
Lecture 25 - Transformations in Steels: Eutectoid Steel (cont.)
Lecture 26 - Phase Transformations: Precipitation Hardening, Age Hardening
Lecture 27 - Mechanical Behaviours of Materials
Lecture 28 - Plastic Deformation: Tensile Test, True Stress, Shear Stress
Lecture 29 - Plastic Deformation: Role of Dislocations
Lecture 30 - Plastic Deformation: Strain-Hardening, Effect of Grain Boundary on the Plastic Deformation
Lecture 31 - Strengthening Mechanisms: Creep
Lecture 32 - Fracture
Lecture 34 - Conductors and Resistors
Lecture 35 - Conductors and Resistors (cont.)
Lecture 36 - Superconductors
Lecture 37 - Semiconductors: The Energy Gap in Solids
Lecture 38 - Semiconductors: Intrinsic and Extrinsic Semiconductors

References
Materials Science
Instructor: Prof. S. K. Gupta, Department of Applied Mechanics, IIT Delhi. Internal energy enthalpy, crystal geometry and structure, non-crystalline solids, phase diagrams and transformation, plastic deformation, conductors, resistors, superconductors and semiconductors.