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The exhaustive list of topics in Materials Science in which we provide Help with Homework Assignment and Help with Project is as follows:

  • Materials Science :
    • Atomic Structure and atomic bonding in solids.
    • Crystal structures.
    • Crystalline and non-crystalline materials.
    • Miller indices.
    • Anisotropic elasticity.
    • Elastic behavior of composites.
    • Structure and properties of polymers.
    • Structure and properties of Ceramics.
    • Pint defects.
    • Theoretical yield point.
    • Line defects and dislocations.
    • Interfacial defects.
    • Bulk or volume defects.
    • Atomic vibrations.
    • Elastic deformation and plastic deformation.
    • Interpretation of tensile stress-strain curves.
    • Yielding under multiaxial stress.
    • Yield criteria.
    • Macroscopic aspects of plastic deformation.
    • Property variability and design factors.
    • Diffusion Mechanisms and steady state and non-steady state diffusion.
    • Factors that influence diffusion and non-equilibrium transformation and microstructure.
    • Dislocation and plastic deformation and mechanisms of strengthening in metals.
    • Recovery.
    • Recrystallization and grain growth.
    • Strengthening by second phase particles.
    • Optimum distribution of particles.
    • Lattice resistance to dislocation motion.
    • Equilibrium phase diagrams.
    • Particle strengthening by precipitation.
    • Precipitation reactions.
    • Kinetics of nucleation and growth.
    • The iron-carbon system.
    • Phase transformations.
    • Transformation rate effects and TTT diagrams.
    • Microstructure and property changes in iron-carbon system.
    • Fracture.
    • Ductile and brittle fracture.
    • Fracture mechanics.
    • Impact fracture.
    • Ductile brittle transition.
    • Fatigue.
    • Crack initiation and propagation.
    • Crack propagation rate.
    • Creep.
    • Generalized creep behavior.
    • Stress and temperature effects.
    • Types on metals and alloys.
    • Fabrication of metals.
    • Thermal processing of metals.
    • Heat treatment.
    • Precipitation hardening.
    • Types and applications of ceramics.
    • Fabrication and processing of ceramics.
    • Mechanical Behavior of polymers.
    • Mechanisms of deformation.
    • Strengthening of polymers.
    • Crystallization.
    • Melting and glass transition.
    • Polymer types.
    • Polymer synthesis and processing.
    • Particle reinforced composites.
    • Fiber reinforced composites.
    • Structural composites.
    • Corrosion of metals.
    • Corrosion of ceramics.
    • Degradation of polymers.
    • Electrical conduction.
    • Semi conductivity.
    • Super conductivity.
    • Electrical conduction in ionic ceramics and in polymers.
    • Dielectric behavior.
    • Ferroelectricity.
    • Piezoelectricity.
    • Heat capacity.
    • Thermal expansion.
    • Thermal conductivity.
    • Thermal stresses.
    • Diamagnetism.
    • Paramagnetism.
    • Ferromagnetism.
    • Antiferromagnetism.
    • Ferrimagnetism.
    • Influence of temperature on magnetic behavior.
    • Domains and hysteresis.
    • Optical properties of metals.
    • Optical properties of nonmetals.
    • Application of optical phenomena.
    • Economic considerations.
    • Environmental and societal considerations.
    • Recycling issues.
    • Life Cycle analysis and its use in design