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Material engineering is associated with science of materials. Innovation in material science takes to advanced technologies which provides prosperity, security, growth and quality of life of humans. Materials scientists and engineers play an important role in this engineering. Advanced machines with high level technologies embedded in that saves working time and provides comfort to life. As people are living in fast paced environment, they are required to work fast with efficiency and qualitative work. Smart life is possible with smart technology which comes with innovation in engineering. Material engineering is that part which is considered to be more technology proven as this produces innovative products to people working in home or offices as per their requirements.
A material engineer is responsible for developing, processing and testing materials to create a range of products such as computer chips, biomedical devices and also considers properties and structures of the materials. A material engineer works at an atomic level.
Materials engineering is an interdisciplinary field which involves the design and discovery of new materials. Materials science and engineering influences our day to day life as we use or buy a new device, structure or machine. Material engineering plays an important role in the various fields such as telecommunications, information processing, aerospace, electronics, etc. It mainly concerned with the characteristics and uses of materials that can be converted into needed products. On the basis of mechanical, electrical and physical properties, Engineering materials are divided into three main classes: polymeric materials, ceramic materials and metallic materials. Materials design and selection is the important factor of material engineering. The selected material must be strong enough to support the load without permanent deformation.
Nanomaterials and Smart materials are two main classes of materials that affect all major industries. Nanomaterials is a material which have a constituents of nanoscale dimensions and used at very small scale. Nanomaterials can be ceramic, composite, metallic, polymeric and electronic. Some materials have the ability to sense stimuli of external environment and respond to them by changing their structure, functions and properties, these materials are known as smart materials. Smart materials consists two components: sensors and actuators. Sensory component detect the change in environment and actuator component performs the specific function.
A material engineer’s duties are given as:
- Planning and evaluating new projects
- Consulting with senior team to develop
- Preparing proposals and budgets
- Analyzing labor costs and writing reports
- Supervising the work of technicians, technologists and other engineers
- Do testing of processing procedures
- Monitoring performance of materials
- Determining product failures
- Evaluating economic factors and technical specifications
Our Materials Engineering Assignment help tutors help with topics like Structure of materials: Space lattices and unit cells, crystal systems, structures of common , Hall effect, carrier concentration of semiconductors
Materials engineering is a branch of engineering. Material engineers design, produce and evaluate materials and their use. Materials of engineering refers to select the correct materials for the application. This selection process includes choosing the material, paying attention to specific type or grade based on the required properties. Material engineers are working on the usage of materials, testing, development and the modification of materials.
Materials Science homework help topics include:
- Metallic, semiconductor ceramic and superconductor materials,
- Miller indices,Materials Science
Generally topics like 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. are considered very complex , Imperfection in solids: Point defects: impurities, dislocations: edge and screw dislocation,
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Help for complex topics like:
- Stacking faults, grain boundaries, twins/twist boundaries, volume defects, concentrations of point defects, effect of defects on material properties.
- Phases diagrams and phase transformation: Definition of diffusivity, concept of activation energy, Pick's laws of diffusion, diffusion mechanism and their applications, 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, Introduction to TTT curves, heat treatment processes, annealing, hardening, tempering, normalization, embrittlement, characterization of materials.
- Mechanical behavior: Elastic behavior of materials, Concept of 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, Fermi energy, Fermi‐Dirac Statistics, Band theory of solids, metals,semiconductors, insulators, Semiconductors: intrinsic and extrinsic semiconductors,structure of elements and compounds, conductivity as a function of temperature, doping,
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Get instant help for Materials Engineering Report writing, Case studies
- manufacture and processing and applications of polymer materials.
- Emphasis on relationship between structure of polymer molecules and properties of those polymeric materials.
- control of structure in the manufacture and processing of polymers.
- Factors to be considered in application and in the analysis of failures
- sports engineering, Bio medical engineering, Automotive engineering, Dental technology, 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, Design new materials, Devise processes for making materials and disposing of them, Select the best material for a particular job, Monitor materials performance, Identify why a material failed, Modern materials needs, Engine efficiency increase at high temperature : High temperature structural materials are used, Nuclear waste processing problems are solved, Highly temperature resistant, stronger and lighter materials are required: use in hyper sonic light, Optical fibers absorb light negligibly : use in Optical communication, Materials for unbreakable windows : use in civil construction, Strong metals resist corrosion Use of materials engineering To select materials based on the user comfortable cost and performance To understand the limits of materials and change their properties To construct new material based on their desirable properties. Atoms, Bonding, Basic Chemistry, Introduction to Quantum Mechanics., Crystal Structures and Crystallography; Disorder., Introduction to Metals., Introduction to Ceramics., Stress and Strain. Defects., Phase Diagrams., Introduction to Polymers., Degradation and Failure., Thermal Properties. Magnetic Properties., Electrical Properties and Electronic Materials., Optical properties and Materials., Introduction to Liquid Crystals., Introduction to Nanomaterials., Definition and classification of materials
- 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 of Metals, Atomic Structure & Bonding, , Materials Engineering, Introduction to Materials, Atomic Structure & Bonding, Crystalline & Amorphous Structure, Solidification & Crystalline Imperfections, Thermally Activated & Diffusion, Mechanical Properties 1, Mechanical Properties 2, Phase Diagrams, Engineering Alloys, Polymeric Materials, Ceramics, Composites, Corrosion, Electrical Properties, Optical & Semiconductive, Magnetic Properties, Biomaterials, Introduction to the structure and properties of materials, metals, polymers, composites, Crystal structure and imperfection in metals, Diffusion mechanical properties, failure mechanisms, Phase equilibrium diagrams, heat treatment principles, steels, cast irons, aluminum alloys, Material selection, engineering applications, Materials Science & Engineering, Materials Macroprocessing, Crystal Chemistry and Structure of Materials
- Thermodynamics, Physics of Materials, Materials Microprocessing, Kinetics of Materials Processes, Characterization of Materials, Glass Engineering, Strength of Materials, Electronic, Optical and Magnetic Properties of Materials, Introduction to Nanomaterials, Structural, Mechanical and Chemical Applications of Nanostructures and Nanomaterials, Photonic, Electronic and Magnetic Applications of Nanostructures and Nanomaterials, Materials Science & Engineering of Ceramics, Materials Science & Engineering of Polymers, Physical Metallurgy, Solar Cell Design and Processing, Mechanical Properties of Materials, Biological Applications of Nanostructures And Nanomaterials, Materials Science & Engineering Design I, Materials Science & Engineering Design II, Materials Science & Engineering Venture Analysis, Electronic, Optical and Magnetic Properties of Materials, Physical and Chemical Properties of Glass, Ceramic Metal Systems, Fiber Optic Engineering, Optical Materials, Electrochemical Materials and Devices, , Materials Engineering, Introduction to Materials Engineering, Atomic Structure & Bonding, Crystal Structure & Geometry, Crystalline Imperfections, Diffusion, Mechanical Properties, Dislocation Strengthening, Failure, Thermal Processing, Metals & Applications, Ceramics & Applications, Polymers & Applications, Composites & Applications, Corrosion and Degradation, Materials and Building/Structural Types , Factors Affecting Choice of Materials , Structural Form, Mechanical Properties , strength, structural performance, Non-Mechanical Properties , physical properties, durability, Individual Building Materials , Manufacturing, Properties, Comparative Behavior, Applications in Construction, Steel, Non-ferrous metals, Concrete, Stone, Brick, Glass, Plastics, Composites, Structural and Non-Structural Applications , Residential, Commercial, Special Construction
- The importance of understanding material behaviour. Mechanical properties of materials. Interatomic bonding in materials.
- Metals and Alloys
- Crystal structure in metals, phase diagrams, solidification, plasticity in metals, strengthening mechanisms in metals, the influence of temperature on mechanical properties, an introduction to steels, an
- Introduction to aluminium alloys.
- Degradation Mechanisms: An introduction to fatigue and creep deformation. Mechanisms for the accumulation of fatigue and creep damage within a material. Introduction to residual stresses, 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 in polymer materials, amorphous and crystalline polymers, viscoelasticity in polymers, the glass transition temperature, thermoplastics and thermosets.
- Fibre Reinforced Composites :General features of composite materials, classification of composites, anisotropy, failure modes in tension and compression, toughness in composite materials
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