ECTS - Metallurgical and Materials Engineering (without Thesis)

Compulsory Departmental Courses

MATE500 - Graduation Project (0 + 0) 40

Techniques and tools relevant to the design, analysis, development, implementation, operation and control of modern manufacturing and quality systems in Materials Engineering.

MATE502 - Advanced Thermodynamics of Materials (3 + 0) 5

Laws of thermodynamics and their application to the chemical behavior of materials systems. Thermodynamics of binary and multicomponent solutions. Phase equilibria. Thermodynamics of chemical reactions. Thermodynamics of phase transformations.

MATE510 - Mathematical Methods in Materials Engineering (3 + 0) 5

Review of ordinary differential equations, partial differential equations, special functions, separation of variables, transform techniques, approximate techniques. Fourier and Bessel functions, boundary value problems, Laplace transformation, Numerical methods to solve differential equations, method of least squares

MATE585 - Materials & Processes Selection & Design Problems (3 + 0) 5

Design Process Steps; Design Principles; Computer Aided Engineering; Concurrent Engineering; Creativity and Problem Solving; Decision Theory; Computer Modeling & Simulation; Optimization; Information & Knowledge Sources for Design;Methods of Materials Selection, Processes & Process Selection; Interaction of Materials, Processing and Design; Design

MDES600 - Research Methodology and Communication Skills (3 + 0) 5

Rigorous, scholarly research, particularly theses or dissertations. Literature review, surveys, meta-analysis, empirical research design, formulating research questions, theory building, qualitative and quantitative data collection and analysis methods, validity, reliability, triangulation, building evidences, writing research proposal

Elective Courses

FBE-MATE-T-AE1FA1 - Departmental Elective (0 + 0) 5

FBE-MATE-T-AE1FA2 - Departmental Elective (0 + 0) 5

FBE-MATE-T-AE1FA3 - Departmental Elective (0 + 0) 5

FBE-MATE-T-AE1FA4 - Departmental Elective (0 + 0) 5

FBE-MATE-T-AE1FA5 - Departmental Elective (0 + 0) 5

FBE-MATE-T-AE1FA6 - Departmental Elective (0 + 0) 5

MATE503 - Computational Materials Science (3 + 0) 5

Lennard-Jones model of interatomic forces, density functional theory, Monte Carlo and molecular dynamics simulations of free energy, phase transitions, diffusion and structure prediction

MATE504 - Materials Physics & Chemistry (3 + 0) 5

Physical properties of a wide range of materials from the electronic and atomic point of view. The bonding and structure of materials will be placed in context of quantum mechanics and band theory; and the electrical, optical, thermal, mechanical, and magnetic properties will be emphasized

MATE505 - Structure of Materials (3 + 0) 5

Atomic arrangements in crystalline and non-crystalline materials. Crystallography, kinematic, and dynamical theories of diffraction, applications to x-rays, electrons and neutrons. Interpretation of diffraction patterns and intensity distributions, application to scattering in perfect and imperfect crystals, and amorphous materials. Continuum desc

MATE506 - Advanced Microscopy Tecniques (3 + 0) 5

Scanning electron microscope and its modes of operation, generation of X-rays in SEM, EDS, WDS, stereology, statistical analysis, fundamentals of digital imaging and image analysis, measurement of structural gradients, grain size, particle size and shape, spacing, structure-property relations.

MATE508 - Kinetics, Phase Transformations & Transport (3 + 0) 5

Fundamentals of phase change, diffusion, heat transport, nucleation, and growth applied to solidification; ordering, spinodal decomposition, coarsening, reactions, massive transformations, diffusion-limited transformations and glass transitions

MATE509 - Theory, Modeling & Simulation of Materials Behavior (3 + 0) 5

Application of the mathematical and physical modeling for materials behavior and processesing problems like plastic deformation, creep, fatigue, sintering, electrochemical reactions, welding, solidification, etc. Computational methods of mesoscopic, continuum, and multiscale modeling of mechanical and thermodynamic properties, phase transformation

MATE512 - Nanomaterials (3 + 0) 5

Introduction, Nanomaterials; Nanotubes, Nanowalls, Nanowires, Nanorods, Nanoplates, Nanocomposites, Surfaces in Nanomaterials, Phase Transformations and Thermodynamics of Nanoparticles, Structures of Nanoparticles, Synthesis of Nanoparticles, Magnetic Properties of Nanoparticles, Optical Properties of Nanoparticles, Electrical Properties of Nanopa

MATE514 - Functional Materials (3 + 0) 5

Introduction to functional materials. Crystallography and phase transitions in solids. Structure-property relations in materials. Semiconductors. Magnetic and magnetostrictive materials. Phase change materials (shape memory materials). Ferroelectric films. Optical transition materials. An overview of technological applications based on electronic,

MATE515 - Materials for MEMS Applications (3 + 0) 5

Fabrication of Micro-Electro Mechanical Systems (MEMS) by bulk and surface micro machining of single crystal, polycrystal and amorphous silicon and other materials. Design, fabrication, and materials issues involved in MEMS. Material properties, structural mechanics, and packaging of MEMS. Performance issues including electrostatic, magnetic,

MATE516 - Materials for Energy Technologies (3 + 0) 5

Materials aspects of energy collection, conversion, storage, and delivery. Photovoltaic, nuclear, solar, and thermoelectric materials. Fuel cells and battery technologies. Low density structural materials for weight savings. Hydrogen storage materials

MATE520 - Materials Processing During Casting (3 + 0) 5

Solidification Processes; Casting Hydrodynamics; Inclusion Control in Gating Systems; Heat Transport in Component and Continuous Casting, ESR process, Near Net Shape and Spray Casting; Structure Formation; Cooling Curves; Dendrite Structure and Dendrite Growth; Microsegregation and Macrosegregation in Alloys; Solidification and Cooling Shrinkage

MATE528 - Welding Metallurgy & Technology (3 + 0) 5

Basic welding processes (gas, arc, laser-beam and electron-beam welding). Metallurgy of welding. Weld metal solidification (grain structure, subgrain structure, microsegregation, macrosegregation, porosity, inclusions and cracking). Heat-affected zone (loss of strength, embrittlement and cracking in work-hardened materials, precipitation-hardening

MATE530 - Physical Metallurgy of Steels (3 + 0) 5

Interstitial and Substitutional Solutes in Alpha Iron and Their Interactions; Effects of Substitutional Solutes on Precipitation of Iron Carbides; Factors Affecting the Yield and Tensile Strengths of Carbon Steels; Dual-Phase Carbon Steels; Inclusion Shape Control; HSLA Steels; Heat-Treated Steels; The Boron Effect; Thermomechanical Treatment of

MATE531 - Selected Studies in Process Metallurgy (3 + 0) 5

In depth coverage of one or more topics like, slags and their properties, reduction processes, smelting processes, sulfide smelting processes, alternative ironmaking processes, submerged smelting etc.

MATE532 - Texture and Anisotropy (3 + 0) 5

Single- and poly-crystal properties, crystal systems and symmetry, application of diffraction to determine texture, Kikuchi diffraction pattern, collecting-indexing-evaluation of diffraction patterns, orientation distribution function, typical textures observed in metals, texture development due to solidification, deformation, recrystallization,

MATE536 - Developments in Steelmaking Technologies (3 + 0) 5

Review of BOF steelmaking and secondary metallurgical processes. Recent developments in steelmaking technologies: Operations conducted at the converter, at the ladle furnace, at the vacuum degasser, at the tundish and at the continuous casting mould, etc. in relation to steel cleanliness as well as process improvement and production costs

MATE537 - Production of Ferroalloys (3 + 0) 5

Production of ferroalloys by carbothermic reduction, with special emphasis on ferrosilicon; Production of ferroalloys by metallothermic and vacuum reduction techniques; Detailed explanation of ferrochromium, ferromanganese, ferrotitanium, ferrovanadium, ferrotungsten, ferromolybdenum and ferronickel production

MATE540 - Advanced Ceramic Engineering (3 + 0) 5

Structure of ceramic materials. Characterization of particulate systems. Packing of powders. Analysis of ceramic forming methods. Mechanisms and kinetics of sintering. Property development through process and structure control

MATE544 - Powder Metallurgy (3 + 0) 5

Principles of the P/M process. Metal powder production methods. Powder characterization, properties of metal powders and their testing. Compaction processes. Densification mechanisms. Sintering theory. Liquid phase and activated sintering. Sintering atmospheres and furnaces. Full density processing. Finishing operations. Compact characterization.

MATE545 - Advanced Polymers (3 + 0) 5

Polymer Synthesis; Polymerization types, Polymerization techniques,Reactions of Synthetic polymers, Special topics in polymer synthesis, Conformation, Solutions and Molecular Weight; Polymer conformation and chain dimensions; Thermodynamics of polymer solutions, Measurement of molecular weight, Solid State Properties; Amorphous state, Crystalline

MATE546 - Polymers for Advanced Technologies (3 + 0) 5

Biopolymers, Naturel Polymers and Fibers, Thermoplastics, elastomers and Thermosets, Engineering and Speciality Polymers, Membrane Science and Technology, Biomedical Engineering and Drug Delivery, Applications in electronics, Photonic polymers

MATE547 - Polymer Processing and Rheology (3 + 0) 5

Basic processing operations, Introduction to polymer rheology, Analysis of simple flows, Rheometry, Modelling of polymer processing operations

MATE549 - Tissue Engineering (3 + 0) 5

Definitions of Tissue-Cell; Struc tural Properties, Metabolic Activities, Cell and Tissue Culture; Fundamental Principles, Tissue Engineering-Biomaterial Interactions, ProteinBiomaterial-Surface Interactions, Cell-Biomaterial Interactions, Organ Failure and Regeneration; The Effect of Shear Force on Cellular Functions; The Role of Mass Transfer fo

MATE550 - Characterization Methods of Biomaterials (3 + 0) 5

Introduction to material characterization, thermal analysis and mechanical analysis, assays for extent of degradation, introduction to surface characterization, assays for protein type and amount, assays to determine effects of cell-material interactions, in vitro and in vivo assays for inflammatory response, assays for immune response, thrombosis

MATE556 - Materials Engineering Management (3 + 0) 5

This course addresses the role of the materials engineer as a "manager" of continuous improvement in materials design and production processes.Modern tools and techniques for planning and managing team projects involving facilities planning and design, materials and process selection and design, integrating the concepts of total quality; data base

MATE565 - Coatings and Thin Films (3 + 0) 5

Surface coating methods: Gaseous, solution and molten state deposition processes, fundamentals of vacuum technology, principles of physical and chemical vapor deposition, electrochemical deposition, origins of film stress, characterization of coatings, tribology of coatings, tool and die coatings, diamond and diamond-like carbon coatings

MATE570 - Advanced Mechanical Behavior (3 + 0) 5

Advanced studies of deformation and failure in materials. Macroscopic and microscopic aspects of deformation. Elasticity and plasticity theories and problems in deformation processing. Fracture mechanics and composite toughening mechanisms. Mechanisms of creep deformation. Fatigue

MATE572 - High Temperature Materials (3 + 0) 5

Principles of materials behavior at high temperatures. Microstructure-property relationships including phase stability and corrosion resistance to high temperature materials. Fracture and fatigue at elevated temperatures. Damage accumulation behavior and engineering applications of service life techniques

MATE574 - Mechanics & Metallurgy of Metal Forming (3 + 0) 5

Stress and Strain Tensors; Yield Criteria; Flow Rules; Plastic Instability; Deformation Mechanism Maps; Uniform Energy; Extrusion; Bar Drawing; Redundant Work; Slab Analysis of Rolling and Sheet drawing; Slip Line Field Theory; Formability; Plastic Anisotropy; Forming Limit Diagrams; Sheet Metal Properties of Metal Alloys of Common Use

MATE576 - Nuclear Reactor Materials (3 + 0) 5

Review of crystal structures, point defects and dislocations. Diffusion of point defects in solids. Thermal diffusion in uranium dioxide. Stress and Strain Energies near Dislocation Cores from Elastic Continuum Predictions. Radiation Damage in Solids, Kinematics of Elastic Collisions, Energy Dependent Hard Sphere Ion-Ion Scattering Approximation,

MATE578 - Failure Analysis of Materials (3 + 0) 5

Analysis of failed structures due to tensile overload, creep, fatigue, stress corrosion, wear and abrasion, with extensive use of scanning electron microscope. Identification and role of processing defects in failure

MATE586 - Independent Study I (3 + 0) 5

Students are assigned to work closely with one or more faculty members to gain expert knowledge on a specific topic in metallurgical and materials engineering. Each student (either individually or as a member of a team) should either complete a design project and manufacture the design product, or carry out a detailed experiment (design or use an

Technical Elective Courses

MATE518 - Tool and Die Materials (3 + 0) 5

Classification; types of tool & die materials; properties & testing; production and quality control; mould for plastics, die-casting dies; die failures etc

MATE535 - Integrated Iron and Steel Plants (3 + 0) 5

Fundamentals of iron and steelmaking. Review of basic principles of blast furnace, pretreatment of hot metal, oxygen steelmaking processes, ladle refining & vacuum degassing, tundish operations and continuous casting processes. Steel plant refractories. Alloying elements in continuously cast steel products. Stainless steel production

MATE541 - Advanced Glass Science and Technology (3 + 0) 5

Nucleation, Crystal growth, Glass formation, Melting of ceramic powders, Structure of glasses, Viscosity of glass forming, Density, Thermal expansion, Mechanical properties, Optical properties

MATE548 - Advanced Biomaterials (3 + 0) 5

Classification of Biomaterials; Polymeric, Metallic, Ceramic and Composite, Choice of Biomaterials for Biomedical Applications, Biomaterial Surfaces and Physiological Environment, Engineering Biomaterial Surfaces, Biocompatibility

MATE560 - Tribology (3 + 0) 5

Characterization of surfaces, interaction of surfaces, theories of contact mechanics, fundamentals of friction, fundamentals of lubrication, types of wear, measurement of wear, tribology of engineering materials,tribology of machinery and vehicle components, tool wear and lubricants in metal cutting and shaping, tribology of hip and knee joint rep