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Material science assignment help from highly qualified tutors

Are you wondering where you can get the best material science assignment help? We offer solutions that guarantee the best grades. We have the right team of experts drawn from the top universities globally. Through our experts, we guarantee students the best solutions at an affordable price. More to that, all our solutions are done from scratch, and therefore we guarantee you plagiarism-free content. We are here to ensure that you get the best work. Therefore, if you are looking for a team that can guarantee you the best solutions, hire us today and enjoy amazing services.

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