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Materials Engineering Assignment Help | Materials Engineering Homework Help

Globalwebtutors is known to have excellent team of Materials Engineering Assignment experts with years of proven experience in Materials Engineering Assignment help & Materials Engineering homework help.

Our Materials Engineering Online tutors are helping students with weekly Materials Engineering homework assignments & the final year projects with excellent grades.

Please send your Materials Engineering assignments at  support@globalwebtutors.com in order to get the instant help with Materials Engineering assignment. Or else upload it on the website & discuss with a chat agent.

Materials Engineering homework help topics include:

  • Metallic, semiconductor ceramic and superconductor materials, Miller indices,Materials Science
  • Representation of Directions and Planes, Packing Fractions, Structure Determination using X‐ ray diffraction, Bragg's law, and lattice parameter determination.
  • Bonding in solids,coordination number, ceramics, silicates and clay structures, glass transition temperature,non‐crystalline materials, Imperfection in solids: Point defects: impurities, dislocations: edge and screw dislocation, 

Materials Engineering questions help services by live experts:

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Help for complex topics like:

  • Structure of materials: Space lattices and unit cells, crystal systems, structures of common , Hall effect, carrier concentration of semiconductors 
  • Stacking faults, grain boundaries, twins/twist boundaries, volume defects, concentrations of point defects, effect of defects on material properties
  • Phases diagrams and phase transformation: diffusivity, activation energy, Pick's laws of diffusion, diffusion mechanism, diffusion process , Solid solutions, intermediate phases and inter‐metallic compounds, phase, phase rule,
  • unary, binary phase diagrams, phase diagrams of some important metals and ceramics,microstructure changes during cooling, lever rule, invariant reactions, iron‐iron carbide ,phase diagram. Nucleation and growth of phases,TTT curves, heat treatment processes, annealing, hardening, tempering, normalization, embrittlement, characterization of materials.
  • Mechanical behavior: Elastic behavior of materials, engineering and true stress and true strain, Tensile property, Yield Point phenomenon, Elastic Modulus, work hardening,strengthening mechanism, fracture, creep and fatigue, hardness. Atomic model of elastic behavior, plastic deformation in single and polycrystalline crystal, mechanism of slip, critical resolved shear stress, ductile and brittle failure, Griffith's theory of brittle fracture.
  • Magnetic and dielectric properties of materials: Origin of magnetism, dia, para, ferro,antiferro and ferrimagnetism, soft and hard magnetic materials, dielectric properties, piezo,pyro and ferroelectricity.
  • Electrical and electronics properties: Electricity conductivity, Free electron theory, density of states, conductivity as a function of temperature, doping

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Get instant help for Materials Engineering Report writing, Case studies

Topics in Materials Engineering Assignment help : 
  • Materials selection, Polymers, Composites, Ceramics, Metals, Electrical properties, Mechanical properties, Degradation and corrosion, shaping processes
  • Casting and solidification, deformation of materials, Heat treatment, Phase diagrams, crystal structure, Atomic structure and Bonding
  • materials performance, Identify why a material failed, Modern materials needs, Engine efficiency increase at high temperature : High temperature structural materials
  • Highly temperature resistant, stronger and lighter materials ,use in hyper sonic light, Optical fibers absorb light negligibly
  • Strong metals resist corrosion  Atoms, Bonding, Quantum Mechanics., Crystal Structures and Crystallography; Disorder., Metals., Ceramics., Stress and Strain. Defects., Phase Diagrams., Polymers., Degradation and Failure., Thermal Properties. Magnetic Properties., Electrical Properties and Electronic Materials., Optical properties and Materials., Liquid Crystals., Nanomaterials.,
  • Atomic structure, periodic table, molecular structure, bonding, Structure of Crystalline Solids, Crystalline & Amorphous Structure, Solidification & Crystalline Imperfections, Thermally Activated... & Diffusion, Mechanical Properties
  • Phase Diagrams, Engineering Alloys, Polymeric Materials, Ceramics, Composites, Imperfections in Solids, Electrical Properties, Optical & Semiconductive, Magnetic Properties, Biomaterials, Diffusion in Solids, Mechanical Properties of Metals, Strength, ductility, toughness, resilience; Dislocations and, Strengthening Mech, Failure Fracture, types of fracture, fracture mechanisms, impact test, Failure- Fatigue and creep, Phase Diagrams
  • Thermal Processing of Metals, Corrosion , Atomic Structure & Bonding,  Thermally Activated & Diffusion,Phase Diagrams, Engineering Alloys, Polymeric Materials, Ceramics, Composites, Corrosion, Electrical Properties, Optical & Semiconductive, Magnetic Properties, Biomaterials
  • Crystal structure and imperfection in metals, Diffusion mechanical properties, failure mechanisms, Phase equilibrium diagrams, heat treatment principles
  • kinetics of Materials Processes, Characterization of Materials
  • Photonic, Physical Metallurgy, Solar Cell Design and Processing
  • Venture Analysis, Electronic, Optical and Magnetic Properties of Materials, Physical and Chemical Properties of Glass, Ceramic Metal Systems, Optical Materials, Electrochemical Materials and Devices, Crystalline Imperfections
  • Diffusion, Mechanical Properties, Dislocation Strengthening, Failure, Thermal Processing,Corrosion and Degradation, Materials and Building/Structural Types , Factors Affecting Choice of Materials , Structural Form, strength, structural performance
  • durability, Comparative Behavior, Non-ferrous metals
  • Metals and Alloys ,Crystal structure in metals, phase diagrams, solidification, plasticity in metals, strengthening mechanisms in metals
  • Degradation Mechanisms: fatigue and creep deformation, the role that residual stresses can play in affecting fatigue life.
  • Fracture Mechanics : Geometric stress concentration, Griffith’s criterion for crack propagation, the importance of toughness in engineering design, the stress intensity factor, ductile-to-brittle transitions.
  • Polymer Materials : bonding ,amorphous and crystalline polymers, viscoelasticity in polymers
  • Fibre Reinforced Composites : composite materials & classification , anisotropy, failure modes in tension and compression
  • Composites,Failure:,Fracture,Fatigue,Corrosion,Creep
  • Plasma Science Engineering ,Solid State Electronics , control of structure in the manufacture and processing of polymers
  • Structure of Materials,Thermodynamics of Condensed Phases, Kinetic Processes in Materials, Electrical, Magnetic, Dielectric Materials

 

 

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