Material Science
INTRODUCTION TO MATERIALS
Mechanical Properties of Metals and testing
FERROUS AND NON-FERROUS METALS AND ALLOYS
- HISTORICAL PERSPECTIVE OF MATERIALS
- ENGINEERING REQUIREMENTS OF MATERIALS
- Classification of engineering materials
- Organic and inorganic materials
- Semiconductors
- Biomaterials
- CURRENT TRENDS AND ADVANCES IN MATERIALS
- Advanced materials
- Smart materials (materials of the future)
- Nanostructured materials and nanotechnology
- Quantum dots
- Spintronics
- Level of material structure examination and observation
- Material structure
- Engineering metallurgy
- Selection of the materials
- Atomic concepts in physics and chemistry
- Atomic Structure:FUNDAMENTAL CONCEPTS
- Atomic Structure:FUNDAMENTAL CONCEPTS
- ELECTRONS IN ATOMS
- THE PERIODIC TABLE
- BONDING FORCES AND ENERGIES
- Ionic Bonding
- Covalent Bonding
- Metallic Bonding
- SECONDARY BONDING OR VAN DER WAALS BONDING
- Crystal Structures: FUNDAMENTAL CONCEPTS
- The Face-Centered Cubic Crystal Structure
- The Body-Centered Cubic Crystal Structure
- The Hexagonal Close-Packed Crystal Structure
- CRYSTALLOGRAPHIC PLANES
- CRYSTAL SYSTEMS
- POINT COORDINATES
- CRYSTALLOGRAPHIC DIRECTIONS
- Hexagonal Crystals
- Atomic Arrangements
- CLOSE-PACKED CRYSTAL STRUCTURES
- VACANCIES AND SELF-INTERSTITIALS
- IMPURITIES IN SOLIDS
- DISLOCATIONS—LINEAR DEFECTS
- INTERFACIAL DEFECTS
- Microscopic Examination
- Optical Microscopy
- Electron Microscopy
- GRAIN SIZE DETERMINATION
- Introduction to mechanical properties
- CONCEPTS OF STRESS AND STRAIN
- Compression Tests
- STRESS-STRAIN BEHAVIOR
- ANELASTICITY
- ELASTIC PROPERTIES OF MATERIALS
- Plastic Deformation
- Yielding and Yield Strength
- Tensile Strength
- Ductility
- Resilience
- Toughness
- TRUE STRESS AND STRAIN
- ELASTIC RECOVERY AFTER PLASTIC DEFORMATION
- HARDNESS
- Rockwell Hardness Tests
- Brinell Hardness Tests
- Knoop and Vickers Microindentation Hardness Tests
- Hardness Conversion
- Correlation Between Hardness and Tensile Strength
- VARIABILITY OF MATERIAL PROPERTIES
- Computation of Average and Standard Deviation Values
- DESIGN/SAFETY FACTORS
- Phase diagrams-introduction
- SOLUBILITY LIMIT
- PHASES
- PHASE EQUILIBRIA
- ONE-COMPONENT (OR UNARY) PHASE DIAGRAMS
- Binary Phase Diagrams
- BINARY ISOMORPHOUS SYSTEMS
- Determination of Phase Compositions
- Determination of Phase Amounts
- Equilibrium Cooling
- Nonequilibrium Cooling
- MECHANICAL PROPERTIES OF ISOMORPHOUS ALLOYS
- BINARY EUTECTIC SYSTEMS
- DEVELOPMENT OF MICROSTRUCTURE IN EUTECTIC ALLOYS
- EQUILIBRIUM DIAGRAMS HAVING INTERMEDIATE PHASES OR COMPOUNDS
- EUTECTOID AND PERITECTIC REACTIONS
- CONGRUENT PHASE TRANSFORMATIONS
- THE GIBBS PHASE RULE
- THE IRON-IRON CARBIDE (Fe-Fe3C) PHASE DIAGRAM
- DEVELOPMENT OF MICROSTRUCTURE IN IRON-CARBON ALLOYS
- Hypoeutectoid Alloys
- Hypereutectoid Alloys
- THE INFLUENCE OF OTHER ALLOYING ELEMENTS
- FERROUS ALLOYS
- Low-Carbon Steels
- Medium-Carbon Steels
- High-Carbon Steels
- Stainless Steels
- Cast Irons
- Gray Iron
- Ductile (or Nodular) Iron
- White Iron and Malleable Iron
- Compacted Graphite Iron
- NONFERROUS ALLOYS
- Copper and Its Alloys
- Aluminum and Its Alloys
- Magnesium and Its Alloys
- Titanium and Its Alloys
- The Refractory Metals
- The Superalloys and Noble Metals
- Miscellaneous Nonferrous Alloys
- Fabrication of Metals
- FORMING OPERATIONS
- Forging, Rolling, Extrusion and Drawing
- Casting
- Powder Metallurgy
- Welding
- ANNEALING PROCESSES
- Process Annealing and Stress Relief
- Annealing of Ferrous Alloys
- Normalizing
- Full Anneal
- Spheroidizing
- HEAT TREATMENT OF STEELS
- The Jominy End-Quench Test
- Hardenability Curves
- Influence of Quenching Medium, Specimen Size, and Geometry
- PRECIPITATION HARDENING
- Heat Treatments
- Solution and precipitation heat treating
- Mechanism of Hardening
- Composites-introduction
- Particle-Reinforced Composites
- LARGE-PARTICLE COMPOSITES
- Portland Cement Concrete
- Reinforced Concrete
- DISPERSION-STRENGTHENED COMPOSITES
- INFLUENCE OF FIBER LENGTH IN REINFORCED COMPOSITES
- THE FIBER PHASE
- THE MATRIX PHASE
- Glass Fiber-Reinforced Polymer (GFRP) Composites
- Carbon Fiber-Reinforced Polymer (CFRP) Composites
- Other Fiber Reinforcement Materials
- FERROELECTRICITY
- PIEZOELECTRICITY