Course Content

Second Year

3rd Semester Courses

Work Safety:

The safety regulations in workplaces, in research and development and quality control laboratories, emergency procedures in case of accidents, and first aid. The importance of tools used in the workplaces for work safety. The safe use of equipment and tools in the workplaces and safety precautions.

Coursebooks:  Yiğit, Abdulvahap: Work Safety and Health, Alfa-Aktüel Publishing

The Culture of Work Safety: Concept, Models and Application, 2012, Beta, Istanbul

 

Writing and Reading in English:

To learn the vocational terms in English, reading a passage and translating it into English. To be able to write in English. Approaches for the literature reading.

Coursebooks: Scientific articles

 

Thermodynamics:

Introduction and Fundamental Concepts: Thermodynamic and Energy, Zeroth Law of Thermodynamics, Energy Conversions and General Energy Analysis, The Properties of Pure Materials, Energy Analysis of Closed Sytems, Mass and Energy Analysis for Control Volume, Second Law of Thermodynamics: Heat Engines, Cooling Machines, and Heat Pumps, Carnot Conversion, Entropy and The Law of Entropy Increase, Exergy: A Measure of Work Potential

Coursebook: Engineering Approach to Thermodynamics, Çengel Y. A., Bloles M.A.

 

Differential Equations:

The classifications of Differential Equations, origin and applications, open and closed solutions, geometric analysis of the solutions of the differential equations, existence and Unity theorem, solution methods for the first degree ordinary differential equations, solution methods for the higher degree ordinary differential equations, ordinary differential equation systems, serial solutions of the linear differential equations, approximate methods to solve the first degree differential equations.

Coursebooks: Differential Equations, 3rd Edition, Shepley L. Ross, John Wiley&Sons, 1984.

Elementary Differential Equations and Boundary Value Problems, 5th Edition, William E. Boyce, Richard C. DiPrima, John Wiley&Sons, 1992.

 

Statics and Endurance of Materials:

The definition of statics and endurance, foundations of statics, stress-strain, eleasticity constants, free object diagram, multidirectional stress, multicomponent materials and their endurance values, effect of temperature, Mohr circle, Reaction forces, local and uniform loading, force-torque diagrams, center of gravitiy, moment of inertia, balance conditions and equations, uncertain systems in statics, friction and friction forces.

Coursebooks:

  • E.J.Heran, “Mechanics of Materials”, 2nd edition, 1985.
  • S. Leonard,  “Applied Statics and Strength of Materials”

Ö.R.Akgün, O.Yazıcıoğlu, T.Kotil, Endurance of Materials, 1.Baskı, 2003.

  • K.Onaran,  Problems and Solutions in Materials Science.
  • W.Nash “Strength of Materials” Schaum´s outlines, Fourth Eddition

 

Materials Science:

What is materials science, why is it important, what are the types of materials, the structure of materials, electronic and atomic structures, crystal structure, microstructure, macrostructure, chemical bonds, structure-property relationship, equilibrium diagrams and problems.

Coursebooks:

  1. D. Callister, Materials Science and Engineering:An Introduction (John Wiley 2007, 7th edition
  • Kaşif Onaran, Malzeme Bilimi
  • Temel Savaşkan, Malzeme Bilgisi ve Muayenesi
  • Askeland, D. R. , The science and enginering of materials, PWS Pub. Co., 1994
  • Simith W.,  Principles of materials science and engineering , New York : McGraw-Hill, 1996.
  • Malzeme Bilimi Problemleri ve Çözümleri, Onaran, K., Bilim Teknik Yay.

Scientific Research and Scientific Article Writing Methods:

Methods for literature search in scientific research, how to write reports and thesis and the points to consider, how to prepare projects and the points to consider, how to prepare posters, how to make oral presentations and the points to consider.

 

4rd Semester Courses

Thermodynamics of Materials:

The significance of thermodynamics in human life and the field of materials science and engineering. The fundemantal definitions and concepts of thermodynamics. The differences between process varibles and phase diagrams. The significance of reversible processes and equilibrium conditions to solve the thermodynamics problems. Reaction equilibrium, the change of standard gibbs free energy with temperature, Richardson-Ellingham Diagrams, the effect of phase diagrams on Richardson-Ellingham Diagrams and examples, thermodynamics of solutions, properties of solutions and their relation to phase diagrams.

Coursebooks:

  • Introduction to Thermodynamics of Materials, 2003, D.R.Gaskell.
  • Thermodynamics in Materials Science, 1993, R.T.DeHoff.
  • Metalurji Termodinamiği, 1980, Veli Aytekin, (İTÜ Yayını).
  • Problems in Metallurgical Thermodynamics & Kinetics,1977, R.K.Dube.
  • Problems in Applied Thermodynamics, 1965, C.Bodsworth.
  • Çözümlü Metalurji Termodinamiği Problemleri, 1982, F.Dikeç, (İTÜ Yayını).

 

Materials Characterization Techniques:

The significance of characterization, the classification of characterization techniques, microscopic characterization techniques, sample preparation, light microscopes, the comparison of light with electrons, why electron microscopes, scanning electron microscopes, transmission electron microscopes, chemical analysis in electron microscopes, other microscopes, non- microscopic techniques, diffranction, xray diffraction, thermal analysis devices and other characterization techniques.

 

Coursebooks:

  • Transmission Electron Microscopy, 1996, D.B. Williams and C.B. Carter, Plenum Publishing.
  • A Guide to Polishing and Etching of Technical and Engineering Ceramics, D.J. Clinton, Sherwin Rivers Ltd., Stoke-on-Trent, England, 1987.
  • Ceramic Microstructures: Property Control by Processing, 1994, W.E. Lee ve W.M. Rainforth, Chapman and Hall.
  • Electron Beam Analysis of Materials, 1994, MH Loretto, Chapman & Hall.

 

Materials Science 2:

Physical properties, mechanical properties, elastic and plastic deformation, stress-strain curves, factors that affect tensile diagrams, problems regarding mechanical properties, other mechanical properties, processess to strengthen materials, thermal properties: thermal conductivity, thermal expansion, thermal shock resistance. Electrical properties: metals, insulators, semi-conductors, ionic conductors, conductivity in polymers and glasses, dielectric materials. Magnetic properties. Optical properties.

Coursebooks:

  • W. D. Callister, Materials Science and Engineering:An Introduction (John Wiley 2007, 7th edition

Yardımcı Ders Kitapları

  • Kaşif Onaran, Malzeme Bilimi
  • Temel Savaşkan, Malzeme Bilgisi ve Muayenesi
  • Askeland, D. R. , The science and enginering of materials, PWS Pub. Co., 1994
  • Simith W.,  Principles of materials science and engineering , New York : McGraw-Hill, 1996.
  • Malzeme Bilimi Problemleri ve Çözümleri, Onaran, K., Bilim Teknik Yay.
  • Physical Ceramics Y.-M. Chiang, D.P. Birnie, W.D. Kingery, , John Wiley & Sons 1997

 

Raw Materials and Basic Processes:

Raw Materials (Metallic Raw Materials, Ceramics Raw Materials, and others),Pre-treatment of Raw Materials, Intermediate Processes, Bacis Processes

 

Coursebooks:

  • F. Taggart, Handbook of Mineral Dressing, John Wiley and Sons Inc., 1960.
  • A. F. Taggart, Elements of Ore Dressing, John Wiley and Sons Inc., 1951.
  • Mineral Processing, Elsevier Publishing Co. Ltd., Amsterdam, 1965.
  • W. E. Worrall, Clays and Ceramic Raw Materials, Second Edition, Elsevier Applied Science Publisher, 1986.
  • Reinhart Schuhmann JR., Metallurgical Engineering, Vol 1, Engineering Principles, Addison-Wesley Pub. Com. Inc., USA, 1952.

 

Physical Metallurgy:

Plastic Deformation, shear systems, dislocations, voids and void formation, diffusion, carburation and decarburation of steels, nucleation kinetics, homogeneous and heterogeneous nucleation, growth kinetics, solidification of pure metals and alloys, equations of balanced and imbalanced solidification, eutectic solidification, dentritic solidification, molding structures, recovery and  recrystallization, energy storage in deformations, annealing and grain growth, precipitation transformations, preferred orientation, Ostenitin transformation in Fe-C binary systems, the effect of temperature on phase transformations, TTT Curves, Martenzitic transformation, shape memory alloys, Nitinol and Martensitic transformations.

Coursebooks:

  • Robert E. Reed Hill, Physical Metallurgy Principles, Van Nostrand Co.Inc., London, 1982.
  • John. D. Verhoeven, Fundamentals of Physical Metallurgy, John Wiley & Sons, New York, 1975.
  • R.E. Smallman, Modern Physical Metallurgy, Butterworths, London, 1983
  • S. H. Avner, Introduction to Physical Metallurgy, second edition, McGraw Hill Company, International Student Edition, 1974.
  • Albert G. Guy and John J. Hren, Elements of Physical Metallurgy, Addison-Wesley Publishing Company, London, 1974.

 

 

 

Transport Phenomena:

Fundamental concepts, viscosity, laminar and turbulent flow, mass – energy balance, energy balance applications, heat transport types, thermal conductivity, thermal diffusivity, thermal transport by conduction, thermal transport by convection, thermal transport by radiation, mass transport, steady state diffusion, unsteady state diffusion, chemical transport events, homogeneous reactions, heterogeneous reactions.

Coursebooks:

  • Transport Phenomena in Metallurgy, G.H.Geiger, D.R.Poirier, Addison Wesley Pub.Comp., 1973
  • Transport Phenomena:A Unified Approach, R.S.Brodkey, H.C.Hershey, McGraw Hill, 1988
  • Heat and Mass Transfer: A Practical Approach, 3rd Ed., Y.A.Çengel, McGraw Hill, 2006.
  • Fundamentals of Heat and Mass Transfer, 3rd Ed., C.P.Kothandaraman, New Age Int.Pub., 2006.
  • Fundamentals of Heat and Mass Transfer, 6th Ed., Incropera, DeWitt, Bergman, Lavine

 

Mechanical Behavior of Materials:

Strain, Stress, Stress-Strain Relationship, strength, flow theories, Strength of a perfect crystal, point and line defects, dislocations,  the effect of dislocations on flow, critical shear stress, interaction of dislocations, methods for increasing strength, elastic modulus, fracture, fracture types, fatigue,creep.

Coursebooks:

  • N. Dowling, Mechanical Behaviour of Materials. Englewood, NJ: Prentice Hall, Inc. 1993.
  • Prof. Dr. Paşa Yayla, Kırılma Mekaniği, Seçkin Yayıncılık, 2007.
  • D.R. Askeland, The Science & Engineering of Materials. London: Chapmann & Hall., 1992.
  • W. D. Callister, Materials Science and Engineering:An Introduction (John Wiley 2007, 7th edition)

 

Second Year Technical Elective Courses

Non-destructive Damage Characterization Methods:

Introduction to Non-destructive Damage Characterization Methods, classification of Non-destructive Damage Characterization Methods, damage analysis, comparison of non-destructive analysis methods with destructive analysis methods, material defects that can be characterized with non-destructive characterization techniques, liquid penetrant testing, magnetic methods, radiograph technique, ultrasonic characterization method, eddy current testing,  technical visits.

Coursebooks:

  • Nondestructive Inspection and Quality Control (Metals Handbook)
  • Nondestructive Evaluation Theory, Techniques, and Applications (P. J. Shull)
  • Hasarsız Malzeme Analizinin Teorik İlkeleri (Y. Taptık)

 

Chemistry of Metals:

Periodic table, production of metals, general properties. (1A, 2A, 3A, 3A, 5A, 6A group elements) ve transition metals(1B, 2B, 3B, 4B, 5B, 6B, 7B, 8B group metals).

Coursebooks:

  • H.Tezcan ve R.Tezcan, Nobel Yayın Dağıtım, 1.Baskı, 2007, Ankara

 

Computer Aided Design:

Design and Fundamentals of Design, computer aided design, computer aided modeling techniques, solid modeling, surface modeling, cost analysis, preparation of job instructions with assembly modeling and technical drawings.

Coursebooks:

  • Ian Stroud, Hildegarde Nagy, “Solid Modelling and CAD Systems”, Springer, 2011.

 

Physicochemistry:

Gases, Boyle- Mariotte Law, Charles ve Gay-Lussac Law, Avogadro, Dalton Partial Pressure Law, Partial Volume Law, Graham Difüzyon, Ideal and Real Gases, condensation of gases, Barometric Distribution Law, viscosity of gases, Kinetic Theory of Gases, PVT Phase Diagrams and their functions, heat capacity of gases, thermodynamic units, Zeroth Law of Thermodynamics, First Law of Thermodynamics, Second and Third Law of Thermodynamics, thermodynamic functions, thermodynamic square, Liquids: vapor pressure, viscosity, surface tension, capillary phenomena, mixtures, partial molar properties, phase equilibrium in single component systems, solutions composed of volatile solvents, ideal and real mixtures, colligative properties, phase equilibrium in two component systems, three component systems, solids: crystals and symmetry elements, determination of crystal structures, Braggs Law, Chemical Thermodynamics, thermochemistry, energy equations, Helmholtz Free Energy, Gibbs Free Energy, Chemical Potential, Chemical Equilibrium.

Coursebooks:

  • Fizikokimya, Prof. Dr. Yüksel SARIKAYA, Gazi kitabevi, 2004.
  • Fizikokimya, P.W. ATKINS, Bilim yayınları, 6.baskı, 2001.

 

Inorganic Chemistry:

Electronic sturucture of atom(light and matter, spectrum of hydrogen atom, Bohr atom model, Kuantum Atomic Model, Hydrogen Atom, polyelectronic atoms, periodic properties of elements), molecular structure (Lewis structure and resonance, VSEPR hypothesis, symmetry in molecules,bond energy), covalent bond(valance band theory, molecular orbital theory, polyatomic molecules, electronegativity, ionic bond, metallic bond(ionic bond, structure of crystals, common crystal types of ionic solids, lattice energy, metal bond), atomic interactions(chemical bond, other interactions,repulsive forces, hydrogen bond), asids and bases, transition metals and coordination compounds(transition metals, geometry of coordination compounds, isomerism in coordination compounds), chemical bonding in coordination compounds(valacance bond theory and crystal field theory)

Coursebooks:

  • Anorganik Kimya, Namık K. TUNALI ve Saim ÖZKAR, Gazi kitabevi 1999.
  • İnorganik Kimya,  Gary l. Mıessler and Donald A. Tarr, Palme Yayınevi.

 

Third Year

5 th Semester Courses

Metallik Materials: The classification of metal alloys, history of metals, definitions, general properties, equilibrium phase of  metastable  iron cementite, lever law and its application,  internal structure evolution of metals cooled according to equilibrium phase of  metastable  iron cementite, carbon solubility of Ostenit ve ferrit solid solutions, phase transformations, homogeneous and heterogeneous nucleation, isothermal transformation and continuous cooling transformation diagrams, formation of pearlite, bainite and martensite, thermal processing of steel, annealing, stres relief annealing, normalising, age hardening, martempering, austempering, hardness, hardenability, hardenability diagrams, the effect of sample size, shape and the cooling environment on the hardenability of steel, cast iron,  equilibrium phase diagram of stable iron- carbon ,processable cast iron, white cast iron, steel standards, american steel standards, german steel standartds, stainless steel, surface hardening, aluminum alloys, magnesium alloys, titanium alloys, opper alloys.

 

 

 

Coursebooks:

  • Avner, S. H.(1974) Introduction to Physical Metallurgy. New York: McGraw-Hill
  • Brandt D. A., Warner J. C.(2005) Metallurgy Fundamentals. Illionis: The Goodheart-Willcox Company, Inc.
  • Smith W. F., Hashemi J.(2006) Foundations of Materials Science and Engineering. New York: McGraw-Hill.
  • Shackelford J. F.(1992) Introduction to Materials Science for Engineers. Macmillan Publishing Company
  • American Society for Metals (1977) Atlas of Isothermal Transformation and Cooling Transformation Diagrams.
  • Roberts G. A., Cary R. A. (1980) Tool Steels. American Society for Metals

 

Ceramic Materials:

The properties of ceramics, powder ceramics, ceramic raw materials, characterization of ceramics, particle size, surface area, porous size, density, grinding, grinding tools and their performance, granulation, packing of powders,  surface energy: Laplace and Kelvin equations, parameters which control surface energy, wetting, colloids: the classification of colloids, stability, importance of interface, charged interfaces and electrical double layer, DLVO theory, deflocculation of clay, shaping methods: dry and isostatic press, plaster moulding, plastic moulding, drying, sintering and sintering furnaces.

Coursebooks:

  • Reed, J. S., ”Principles of Ceramic Processing” John Wiley&Sons, New York (1995).
  • Ring, T. A., “Fundamentals of Ceramic Powder Processing and Synthesis”, Academic Press, San Diego (1996).
  • Hunter, R., “Introduction to Modern Colloid Science”, Oxford University Press (1993).
  • Rahaman, M. N., “Ceramic Processing and Sintering”, Marcel Dekker Inc. (1995).
  • Hiemenz, P. C. and Rajagopalan, R., “Principles of Colloid and Surface Chemistry”, Marcel Dekker Inc. (1997).
  • W.D. Kingery, H.K. Bowen, and D.R. Uhlmann, “Introduction To Ceramics”, John Wiley and Sons, 1976.
  • D. W. Richerson, “Modern Ceramic Engineering,” Second Edition, Marcel Dekker Inc., (1992).

 

 

Phase Diagrams:

Fundamental definitions (solubility, constituent, equilibrium, phase),thermodynamics of phase diagrams,  phase relationship in single constituent systems, two component isomorphous systems, three and four component systems, projection of solid and liquid surface, Alkamed lines, coherence triangles, triple constant reactions, equilibrium crystallization paths, constant temperature intersections in triple systems,  vertical dual system intersections, applications.

Coursebooks:

  • Introduction to Phase Equilibria in Ceramics, C. G. Bergeron, S. H. Risbud, 1984. The American Society , Inc.

Phase Equilibria Diagrams, M. A. Clevinger 1996. The American Society , Inc.

 

Materials Lab:

quench testing, recrystallization experiment, precipitation hardening, sample preperation, polishing, etching, phase analysis by XRD, XRF, optical microscope, SEM, FTIR  and thermal analysis.

 

Chemical Metallurgy:

Metallurgical raw materials, sample preparation techniques, surface reduction methods, thermodynamics and kinetics of chemical reactions, formation of oxide, chloride, sulfur and carbide. Vapor pressure of metal compounds, temperature relationships, roasting, evaporation, decomposition, calcination, reduction, pyrometallurgical refining, hydrometallurgy, dissolution, solvent extraction, electrometallurgy, sementation, electrolysis, coating, surface cleaning.

Coursebooks:

  • Fathi Habashi, “Handbook of Extractive Metallurgy”
  • Işık Erdal,“Kimya Mühendisliği Extraktif Metalurjisi”
  • D.W. Hopkins, “Fundamentals of Metallurgical Processes”
  • Chiranjib Kumar Gupta, “Chemical Metallurgy Principles and Practice”
  • J.J. Moore “Chemical Metallurgy”,1981
  • Cankut, S.,’Ekstraktif Metalurji’ İ. T. Ü.  Yayınları, Sayı  884, 1972.
  • Butts, A., ‘ Metalurji Problemleri ‘İ. T. Ü. Yayınları, Sayı 802, 1970. ( Çeviren Prof. Dr. Veli Aytekin)
  • Doç.Dr. Halil Arık “Ekstraktif Metalurji Ders Notları” Eylül-2009,gazi Üniversitesi
  • Prof.Dr.Zeki Çizmecioğlu, “Üretim Metalurjisi Prensipleri” Ders Notları,2005

6 th Semester Courses

 

Casting:

Liquid metals, nucleation, solidification,growth, solidification time, viscosity, gases in liquid metals, production techniques by casting, casting sand and core, casting methods, melting furnaces, cast iron, casting defects.

Coursebooks:

  • Principles of Metal Casting, Heine, R.W., Loper, C.R., Rosenthal, P.C., A.F.S., McGraw-Hill Book Co.

 

Alloys:

Theory of alloys and alloy microstructures. Microalloyed steel, high temperature alloys, aluminum alloys, titanium alloys, magnesim alloys, magnetism and magnetic alloys, copper alloys, case studies, alloy selection for various industrial applications,

Coursebooks:

Related scientific articles.

 

Polymer Materials:

Polymer classes(thermoplastic, thermoset, elastomer), polymerization techniques, additives used in poymer production, thermal and mechanical properties of polymers, thermoplastics, thermosets, composites with polymers matrix, nanocomposites, fibers, polymer films, polymer foams.

Coursebooks:

  • Polimer Teknolojisi, Prof. Dr. Mehmet Saçak, Gazi Kitabevi, 2. Baskı, 2012
  • Fundamentals of  Polymer  Engineering, Arie RAM, Plenum Pres, 1997.
  • Handbook of Thermoset Plastıcs,  Sidney  H.  Goodman,  Second  Edition, 1998.
  • Polimer Teknolojisine Giriş, E. Pişkin, 1987. Inkilap Kitapevi.
  • Textbook of Polymer Science”, Billmeyer, F. W. Jr., 3rd Ed., John Wiley and Sons, Inc., New York, USA, (1984)
  • Fundamentals of Polymer Science – An Introductory Text”, Painter, P. C. and Coleman, M. M., Technomic Publishing Co. Inc., Lancaster, PA, USA, (1997)
  • Introduction to Polymers”, Young, R. J. and Lovell, P. A., 2nd Ed., Chapman&Hall, London, UK, (1997) * “Handbook of Plastics Technologies”, Harper, C. A., (Ed.), McGraw-Hill Professional Publishing, USA, (2006) (Ebrary)
  • Introduction to Physical Polymer Science”, Sperling, L. H., John Wiley & Sons, Inc., Hoboken, NJ, USA, (2006)
  • Plastics: Materials and Processing”, Strong, A. B., 3rd Ed., Pearson – Prentice Hall, Upper Saddle River, NJ – Columbus, OH, (2006)

 

Materials Lab:

Physical tests: Density measurement with various techniques, colour and luminosity mesaurements, tensile test, compression test, bending test, notch impact test, hardness test, fracture toughness, fatigue test, wear and tear test, thermal shock test, non destructive analysis methods.

 

Thirst Year Technical Elective Courses

 

Chemical Kinetics:

Concepts (reaction rate, experimental rate equations, reaction order, rate constants, rate factor, half life), evaluation of kinetic data, complex reactions( converse, successive and paralel reactions), molecular kinetics ( Arhenius law, activation energy, hard sphere collision theory), solution reactions( effect of dielectric constant of solvent, effect of ionic strength, effect of hydrostatic pressure), complex reaction mechanisms, catalysis ( homogeneous and heterogeneous catalysis).

Coursebooks:

  • Kimyasal Kinetik, Prof. Dr. Mehmet Saçak, 3. Baskı, 2011.
  • Kimyasal Kinetik Ders Notları, Prof. Dr. Yavuz ONGANER, 2003.
  • Modern Üniversite Kimyası, C.E. MORTIMER, cilt:2. 2000.

Introduction to Applied Finite Element Method:

This course aims to analyse the materials shaping processes with finite element method, which is one of the most preferred techniques in engineering. This course covers introduction to finite element method, vital point,  determining the mechanical properties of materials, modeling with finite element method, relationship of solid design and finite element method and materials shaping processes.

 

 

Coursebooks:

  • Dorel Banabic,“Sheet Metal Forming Processes: Constitutive Modelling And Numerical Simulation”, Springer, 2010.

 

Thermochemistry of Ceramics:

Examples regarding the structure-property relationship of ceramics, phase diamgrams, Hess law, thermodynamic concepts of materials,  chemical equilibrium, reacion kinetics, Gibbs free energy, Ellingham diagrams, thermodynamics of solutions.

Coursebooks:

  • Chemical Metallurgy, Second Edition, J.J. Moore, 1-4 Chapters, pp.1-148
  • Materials Thermochemistry, Pergamon

 

Instrumental Analysis:

Analytic methods, selection of instrument, signal and noise, electromagnetic radiation and properties, radiation sources and detectors, introduction to absorbtion of UV,Visible and IR, molecular absorbtion of UV and visible radiation, electronic transitions, molecular luminescence and chemiluminescence spectroscopy, atomic spectroscopy, infrared spectroscopy, raman spectroscopy, mass spectrascopy, chromatography methods (liquid chromatography, glass column chromatography, thin layer chromatography, ion Exchange chromatography, high performance liquid chromatography, gas chromatography), nuclear magnetic resonanace spectroscopy

Coursebooks:

  • İnstrümental Analiz, Prof. Dr. Turgut GÜNDÜZ, Gazi Kitapevi, 6. Baskı, 2002.
  • Enstrümantal Analiz  Ders notları, Prof. Dr. Ümit DEMİR, 2004.
  • Nükleer Manyetik Rezonans Spektroskopisi, Prof. Dr. Metin Balcı, (1. Baskı), ODTÜ yayıncılık, 2000.

 

Heat Treatment of Materials:

Property change upon heat treatment. Iron- carbon system. Solubitiy. Austenitizing,austenitizing transformation, atomic structural evolution, atomic structure- property relationship,I-T and C-T diagrams, annealing, air cooling, hardening, critical cooling rate, real cooling rate, size and mass effect, hardenability, hardening of carburized and alloyed steel.tempering. secondary hardening, austempering. Surface hardening, induction hardening, carburation, nitriding, applications of martempering, heat treatment of ceramics, heat treatment of polymers.

 

Coursebooks:

  • Isıl İşlemler, M. A. Topbaş, 1993. Prestij Basın Yayın ve Hizmetleri, İstanbul

 

Iron and Steel Production:

Iron and steel industry in the world and Turkey.metallurgical coking coal and its production.blast furnace and production of pig iron in blast furnace. Steel production methods, production of steel block with continous casting method, steel types and their applications.rolling and semi-finished iron production. İron-cementite equilibrium diagrams.

Coursebooks:

  • Mustafa YENİÇERİ, IRON-STEEL, Yayınlayan Türkiye Demir ve Çelik İşletmeleri Genel Müdürlüğü, Ankara.
  • Selehattin ANIK, E.Sabri ANIK, Murat VURAL (Çeviri) MALZEME BİLGİSİ VE MUAYENESİ, Birsen Yayınevi, İstanbul 1998.
  • J.D. Gilchrist, EXTRACTION METALLURGY, Third Edition, 1989, Printed in Great Britain by BPcc Wheatons Ltd, Exeter.

 

Mechanical Behavior of Ceramics:

Chemical bonds in ceramics, crystal systems, miller indices, Newman rules and tensors, Pauling rules, elastic behavior, hardness, strength, fracture toughness, plastic deformation mechanisms in ceramics, toughening mechanisms.

Coursebooks:

  • N. Dowling, Mechanical Behaviour of Materials. Englewood, NJ: Prentice Hall, Inc. 1993.
  • D.R. Askeland, The Science & Engineering of Materials. London: Chapmann & Hall., 1992.
  • Prof. Dr. Paşa Yayla, Kırılma Mekaniği, Seçkin Yayıncılık, 2007.
  • W. D. Callister, Materials Science and Engineering:An Introduction (John Wiley 2007, 7th edition)

 

Electrochemistry:

İnterface,static electric and faraday law, electrochemical reactions, electrolytic conduction, activity coefficient, faults of  Arrhenius equation, Debye- Huckel theory, electrical conduction and measurements,  resistivity and conductivity, lattice constant, equivalen and molar conductance, resistance measurement, ionic conduction, degree of dissociation, semiconductors, chemical potantial, activity coefficient, ionic forces, electrolyte balance, asids and bases, determining the ionization constants, common ion effect, Ph and POH, strong and weak acids and bases, buffer solution, electrochemical batteries, ceoncentration cells, salt bridge, electrochemical energy sources, corrosion and electrolysis.

Coursebooks:

  • Elektrokimya, Prof. Dr. M. Ayhan ZEREN, Birsen Yayınevi, 1999.
  • Elektrokimya ve Uygulamaları, Hayri YALÇIN, Metin GÜRÜ, Palme yayıncılık, 2010.
  • Fizikokimya, Prof. Dr. Yüksel SARIKAYA, Gazi kitabevi, 2004.

 

Mechanical Behavior of Polymers:

Introduction, structure of polymers, elastic properties of rubber, viscoelasticity, yield and fracture, mechanical properties of reinforced polymers, design of polymers.

Coursebooks:

  • Principles of Polymer Engineering, N. G. McCrum, C. P. Buckley, C. B. Bucknall, Oxford University press, New York 1988

 

Nonferrous Metals:

Properties, applications, reserves in the work and Turkey, economical potential. Methods to increase the endurance of alloys. Aluminum minerals, bauxite and its properties, classification, reserves, aluminum and its alloys, properties of aluminum alloys and their applications. The properties of copper, its merals and applications.  Copper alloys and their properties. Zinc, its properties, minerals and reserves, zinc alloys and their applications, .Magnesium, its properties, minerals and reserves,magnesium alloys and their applications, . Lead, its properties, minerals and reserves, lead alloys and their applications, Nickel cromium, its properties, minerals and reserves, nickel cromium alloys and their applications, precious metals and their properties  applications, high temperature metals, their properties and applications

Coursebooks:

  • Demirden Gayrı Metaller Metalurjisi I-II, Çev:Erman Tulgar, İTÜ Matbaası, 1987.
  • Principles of Extractive Metallurgy, F. Habashi, Volume 2-4, Wiley-VCH, 1997.

 

Welding Technology:

The classification of bonding methods of various materials. Structuring bonding techniques: welding, soldering, diffusion source and glueing. Principles, design of bonds, various bond types and their applications. Electronic bonding: wave and flow soldering, wire, chip bonding, characterization of bonds.

Coursebooks:

  • Selahattin Anık, Kaynak Tekniği El Kitabı
  • Related articles.

 

Powder Metallurgy:

Definition and aim of powder metallurgy, advantages and disadvantages, history, applications, powder  production techniques,  characterization of powders, shaping, solid and liquid sintering, sintering atmosphere, sintering furnaces, characterization of sintered product.

Coursebooks:

  • Toz metalurjisi ve parçacıklı malzeme işlemleri, Türk Toz Metalurjisi Derneği yayını
  • İlgili makaleler

 

Fourth Year

 

7 th Semester Courses

 

Materials Production Lab:

Particle size analysis, sieve analysis, raw materials preparation, pressing, production of walls and floor tiles, production of medical tools, production of plaster moulds, preparation of frit and glaze, sintering of aluminum, production of electroceramics.

Coursebooks:

  • Reed, J (1998) Principles of Ceramic Processing, John Wiley & Sons, Inc
  • Kingery, W. D (1976). Introduction to ceramics, John Wiley & Sons, Inc
  • Richerson, D.W (1992) Modern ceramic engineering, Marcel Dekker Inc.
  • Wang F.F.Y (Ed. by) (1976) Treatise on Materials Science and Technology Vol.9,
  • Ceramic Fabrication Processes, Academic Press

 

 

 

Advanced Technological Materials:

Advanced ceramics 1 a. Functional ceramics, b. Solid oxide fuel cells, c. Superconductors, Advanced ceramics 2  a.structural ceramics, b. Aluminum oxide, c. Zirconia, d. Mullite, functional ceramics 3 a. Silicon nitride, b. SiAlON, c. Silicon carbide, d. Aluminum nitride, boron carbide, advanced metals a. Light materials, b. Superalloys, c. Advanced metals 2 a. Shape memory alloys, b. Semiconductors, advanced polymers a. Conductive polymers, b. PTFE C. Teflon, c. Polymer gels, nanomaterials a. Applications, b. Nanocomposites.

Coursebooks:

  • Related scientific articles.
  • Askeland, D. R. , The science and enginering of materials, PWS Pub. Co., 1994
  • Simith W.,  Principles of materials science and engineering , New York : McGraw-Hill, 1996

 

Plastic Shaping:

The elements affecting the plasticity and deformation of materials.bond types, crystal defects and their behavior, microscopic elements of deformation. Concenpts of plastic deformation, examination of macro-deformations, strain-deformation relationship, young’s modulus, texture, unelasticity, residual stress and removal of stress. Microstructural evolution during deformation and annealing.creeping, creeping in various crystal structures. Materials selectrion for the prevention of creeping.deep drawing and wire drawing. Rolling and blasting. Selection of deformation processes for materials.

Coursebooks:

  • Metallere Plastik Şekil Verme, H. Oktay Bodur, Birsen Yayın Evi.
  • Plastik Şekil Verme İlke ve Uygulamaları Problemleri ve Çözümleri, E. Sabri Kayalı, Hüseyin ÇimenoğluBilim Teknik Yayınevi / Makina/İnşaat Dizisi

 

Corrosion and Surface Protection:

Corrosive environments, cost of corrosion, impact of corrosion on health, environment and lifetime. Fundamental principles of corrosion, anodic and catodic reactions, corrosion cell types, free energy, cell potential and EMF, equilibrium electrode potential, Nerst equation, referance electrodes, potential-PH diagrams, polarization and overpotential, Tafel equation, mixed potentials theory, Evans diagrams, pitting corrosion, intergranular corrosion, erosion corrosion, cavitation corrosion, stres corrosion cracking, fatigue corrosion, atmospheric corrosion, corrosion in sea water, corrosion in soil, oxidation and corrosion at high temperatures, catodic protection, anodic protection, inhibitors, various coatings(paints, ceramics, metals).

 

Coursebooks:

  • Principles of corrosion engineering and corrosion control (Z. AHMAD)
  • Corrosion and protection (E. BARDAL)
  • Korozyon ve Önlenmesi (S. Üneri)

 

Applications of Metallurgical and Materials Engineering:

This course includes a study which is conducted in a systematic way using the knowledge learned in the courses in the curriculum and supports students’ impprovement in their field.  The study is carried out in one of the topics offered by the department under the supervision of a faculty member. Experimental or theorical studies can be performed depending on the sources. In the literature search part of the study, students are expected to cover sufficient number of literature. At the end of the semester, each student presents his/her results and a written raport is collected.

Coursebooks:

Depends on the topics chosen.

 

8 th Semester Courses:

 

Materials Production Lab II:

Substance preparation, floatation, production of pallets,  pyrometallurgical prodcution methods, hydrogemetallurical production methods, casting, production of composites with ceramic matrix, production of composites with polymer matrix, production of composites with metal matrix.

Coursebooks:

  • EKERİM A., “Elektrometalurji Ders Notları”, 2010
  • POPOV K.I., DJOKİC S.S., GRGUR B.N., “Fundamental Aspects ofElectrometallurgy”, 2002
  • BOR,F.Y., “Ekstraktif Metalurji Prensipleri Kısım II”, Birinci Baskı, 1989

 

Composite Materials:

Definition of composite and monolytic materials, necessity. Structural components of composite materials, their properties and functions. The classification of composite materials and their properties.  Matrices and reinforcements used in composite materials and their properties,  micromechanical analysis of composites and their mechanical properties.  Tests for composite materials, applications of composite materials and latest developments.

Coursebooks:

  • Kompozit Malzemeler, Yusuf Şahin, Seçkin Yayıncılık, 2006.

 

Selection and Design of Materials:

The concept of materals design. The selection of materials in terms of mechanical and physical properties. The criterias in the selection of materials. Materials selection diagrams. Materials selection for the design and the steps. Materials selection for applications. İndustrial examples.

Coursebooks:

  • Malzeme Seçimi ve Uygulamaları, Prof. Dr. Fehim Fındık, Sakarya yayıncılık, 2008.
  • M. ASHBY, H. JONES, “Engineering Materials-1; An Introduction to their Properties and Applications”, Butterworth-Heinemann, Oxford, 2002.
  • M. ASHBY, H. JONES, “Engineering Materials-2; An Introduction to Microstructures, Processing and Design”, Butterworth-Heinemann, Oxford, 1999.

 

Applications of Metallurgical and Materials Engineering II:

A laboratory work is performed in a chosen topic. The results are reported and presented to the faculty members.

 

Fourth Year Technical Elective Courses

 

Nanomaterials and Nanotechnology:

Top down and boottom up approaches for the fabrication of nanostructures. Characterization techniques such as scanning probe miscroscope. Fullerences, carbon nanotubes, quantum dots and nanocomposites.  Sensors. Effect of quantum confinement on the optical properties. Developments in microelectronics, molecular electronics.

Coursebooks:

  • Nanophysics and Nanotechnology, E. L. Wolf, 2004. Wiley.
  • Nanotechnology: A gentle introduction to the next big idea, M.Ratner, D. Ratner, 2003. Prentice Hall

 

 

High Temperature Properties of Materials:

The necessity of high temperature materials, design considerations for high temperature materials, deformation at high temperatures, creeping, high temperature corrosion, high temperature materials, protective coatings against high temperature.

Coursebooks:

  • Dieter, G.E. (1988) “Mechanical Metallurgy” SI Edi., ISBN:0 07 100406 8, London.
  • Ashby, M.F. & Jones, Davit R.H. (1996) “Engineering Materials 1: An Introduction to Their Properties & Applications” 2nd Edi., Oxford
  • Materials for High Temperature Engineering Applications; G.W. Meetham and M.H. Van de Voorde, Springer, Heidelberg, Germany, 2000

 

Sustainable Energy:

Wind, Solar , Geothermal, biomass, biofuel and wave energy, solar energy and solar cells, components of solar cells, economy of solar cells, other renewable energy sources, the impact of renewable energy sources on the environment.

Coursebooks:

  • Renewable and Efficient Electric Power Systems, Gilbert M. Masters
  • Renewable Energy in Power Systems, Leon Freris and David Infield
  • Renewable Energy Resources, John Twidell
  • Advanced Renewable Energy Sources, G. N. Tiwari, Rajeev Kumar Mishra

 

Conventional Ceramics:

Introduction: What are ceramics? Applications of ceramics, industrial raw materials and their specifications: conventional ceramic raw materials, their physical and chemical properties, Technologies fort he preparation of conventional raw materials, characterization techniques of the industrial raw materials: methods for detemining the particle size and distribution,  chemical analysis methods (XRF, ICP,etc.) pahse analysis methods (FTIR, XRD), thermal analysis methods(TGA, DTA,Dilatometer), other characterization techniques, tableware: bone porcelain, hard and soft porcelain, shaping, drying, glazing, baking, embossing, quality check, walla tile: preparation, shaping, drying, baking, technological developments in porcelain, stoneware and coating industry: develoments in raw materials preparation, shaping, drying and cooking. Medical tools: definitions and properties, plaster casting, pressure casting, drying methods, grazing methods and  baking methods.

 

Coursebooks:

Related scientific articles.

 

Refractors:

The classification and properties of refractor materials, silica, magnesite, dolomite, cromium, cromium-magnesite, alumina-silica refractors, monolytic refractors, isolation refractors, technological classification of furnaces in terms of design,  metal melting ovens, heat treatment furnaces, ceramic furnaces, criterias for the selection of furnaces.

Coursebooks:

  • Z.E. ERKMEN, “Seramik Faz Diyagramları”, Anadolu Üniversitesi, Eskişehir, 1996.
  • M.ÇİĞDEMOĞLU, “Yakıtlar ve Refrakter Malzemeler” (Çeviri), Makine Mühendisleri Odası, Ankara, 1970.
  • “Refractory Materials and Their Properties”, Dider-Werke AG, Weisbaden, 1987.

 

Strength Increasing Processes of Materials:

Dislocation theory, the relationship of dislocations with other factors, hardening of alloys, precipitation hardening, dispersion hardening, cold treatment, decreasing granular size, aging of deformations, martensitic transition, radiation hardening.

Coursebooks:

  • Temel malzeme kitapları /Fundamental Materials Science Books
  • Mechanical Metallurgy (George E. Dieter)

 

Glass Technology:

The analysis of vitreus phase by taking account the structural and kinetical theories in glass formation. We will focus on composition-structure-property relationship for the design of glass compositions in order to meet the demands. We will also cover the post formation processes to acquire the desired properties.

Coursebooks:

  • Cam Teknolojisi, B. Karasu, N. Nay, 2000, MEB Yayınları, Ankara

 

 

Glaze and Enamel:

Introduction to glazing, raw materials for glazing: a) definition of glazing b) applications c)raw materials containing oxides which is necessary for glazing d) basic oxides e) silica f) alkaline oxides, raw materials used in glazing: a) soil alkaline oxides b) boron oxide c)alumina d)zirconia e) lead oxide f)coloring oxides g) other oxides, other additives used in glazing: a)carrier environment b)flocculents and deflocculents c)harneders, production processes of frit and glaze: a)fabrication of frit b) fabrication of glaze, glaze fabrication processes: a) glaze formulations b) grinding c)application d) decoration e) baking f) characterization g) standart tests, thermal expansion of glaze: a) the importance of the compatibility of thermal expansion b) thermal expansion of various ceramics and glazes c) methods for regulation of thermal expansion, glazing applications: a)wet glazing b) dry glazing c)quick baking d) glass-glaze systems  e) glazing defects, intoruction to enameling a) removal of defects: a) what is enamel, fabrication process: a) preparation of enamel b) application c)baking, characterization of final product: a)removal of enameling defects b)characterization techniques c) technological importance of enameling d)discussion.

Coursebooks:

  • Dinsdale, A., Çömlek Bilimi, John Wiley and Sons, 1986.

 

Biomaterials:

The definion and applications of biomaterials. The classification of implant materials accirdong to their structural properties. The necessary conditions for biomaterials to be used as implants. The sterilization of biomaterials. The common problems of implant materials. The impact of implant materials on health, environment and safety.

Coursebooks:

  • Handbook of Biomaterial Properties, J. Black, G: Hastings, 1998. Chapman & Hall Pub.
  • Biomaterials Science and Engineering, B.Park, 1984. Plenum press, New York.

 

Electronic Materials:

Crystal structures, the electrical properties of materials: energy-band diagrams, electrical conduction, insulators, metals, semiconductors, dielectrical properties and dielectric materials, ferroelecric and piezoelectric behavior of materials. Magnetic properties: magnetic materials, thermal properties of materials

 

 

 

 

Coursebooks:

  • Elektriksel Malzemeler ve Uygulamaları, Ayten KUNTMAN, İstanbul Üniversitesi Yayın no: 4506, ISBN 975-404-722-7.
  • Materials Science and Engineering: An Introduction, W. D. Callister, Jr., John Wiley & Sons, Inc., ISBN 0-471-52997-4, 1991.

 

Surface engineering:

Introduction to surface engineering: essential concepts, definition of surface, the classification of surface treatments, surface engineering with heat treatment, thermochemical surface engineering, thermal spray coating, electrolytic coating processes, CVD, PVD, the applications of thins films, surface engineering with lasers, comparison of surface engineering techniques, criterias for selection of coating.

Coursebooks:

  • Lech Pawlowski, The Science and Eng. of Thermal Spray Coatings , John Wiley-Sons, 1995
  • Hocking M.G., Vasantasree, Sidky S., Metallic and Ceramic Coatings , Longman Scientific and Technical, John Wiley and Sons, 1989.
  • Engineering Thin Films and Nanostructures with İon Bieams, Ed. Emile Knystautas, Taylor-Francis, 2005.
  • S. Sivaram, Chemical Vapor Deposition , ITP, 1995.

 

Polymer Chemistry:

Polymer concepts (monomer, polymer, polymer chain, renewed unit, chain conformation, backbone, side groups, linear, branched, crosslinked polymers, molecular mass, initiator, oligomer, polymerization degree, homopolymers, copolymers), synthesis of polymers, naming polymers, sterochemistry of polymers, thermal properties of polymers, crystal structure of polymers, solubility of polymers, methods to determine the molecular mass of polymers, condansation reactions, ionic polymerization, copolymerization, coordination,  group transfer, olefin metathesis,  atom transfer and cyclopolymerization.

Coursebooks:

  • Polimer Kimyası, Prof. Dr. Mehmet Saçak, Gazi Kitabevi, 4. Baskı, 2008.
  • The Chemistry of Polymers, John W. Nicholson, Third Edition, The Royal Society of Chemistry 2006.
  • Introductıon To Physıcal Polymer Scıence, L.H. Sperling, Fourth Edıtıon, A John Wıley & Sons, Inc. Publıcatıon 2006.

Non-Technical Elective Courses

 

Management and Organization:

Classical management approaches: scientific management, management process,  burocratic management, neo classical management approach, modern management approach, management functions, planning, strategy, vision, mission, aim, leadership, motivation, organization, simple elements, mechanical elements, partitioned elements, contemporary management approaches: learning organizations, total quality management, perfection based management, team management.

Coursebooks:

  • Eren, Erol, Yönetim ve Organizasyon, Beta Basım A.Ş., İstanbul.
  • Mintzberg, H. (1979), The Structuring of Organizations. Prentice-Hall

 

Communication Techniques:

Fundamental concenpts of communication, types, processes and obstacles.

Coursebooks:

  • Büro yönetimi ve iletişim teknikleri, Hasan TUTAR, Mehmet ALTINÖZ
  • İletişim ve Teknoloji, Ümit ATABEK

 

Occupational Diseases:

First aid, work health and safety, definition of occupational diseases, characteristics of occupational diseases, physical based occupational diseases, chemical based occupational diseases, biological based occupational diseases, ergonomi based occupational diseases, work hygen.

Coursebooks:

  • Engin Tonguç Türk Tabipler Birliği Yay. Ankara- 1992
  • 506 Sayılı SSK Kanunu

 

Art History:

Definition, methods, dating, exploring the humanity’s experience in the past from the artifacts, examples of artworks from thje museums of Turkey and the world and their evaluation.

Coursebooks:

  • O.Belli, Archeology in Turkey, İstanbul, 200.
  • Y.Çoruhlu, Türk Mitolojisi, İstanbul, 2007.

 

Civilization History:

The historical evolution of civilizations from the beginning to our modern day.

Coursebooks:

  • Büyükbayrak, Merve, Kayıp Medeniyetler, İstanbul 2007.
  • Aydoğan, Metin, Batı ve Doğu Uygarlıkları, Umay yay. İstanbul 2006.

 

Science History:

Science in ancient civilizations, science in antique greek and helenistic era, science in Romans, Medieval Europe and islamic world, renaissance, modern science, the age of enlightenment, industrial revolution, science in our modern day.

Coursebooks:

  • Yıldırım, C, (1974) Bilim Tarihi, Remzi Kitabevi.
  • Koyre, Bilim Tarihi Yazıları, Tübitak Yayınları-Popüler Bilim Kitapları, 5. Baskı, 2004

 

Enterpronourship and Job Design:

Concenpts related to enterpreneurship, the significance of enterpreneurship, internal and external enterpreneurship, motivation in enterpreneurship, creativity and novelity, invention, protection of brands and designs, job ideas in enterpreneurship, how to prepare a job plan, management in job plan, marketing, financial plans, enterpreneurship stories.

Coursebooks:

  • Çetindamar, Dilek, (2002) Türkiyede Girişimcilik, TÜSİAD Yayınları
  • Girişimcilik ve KOBİ’ler, Tamer Müftüoğlu, Gazi Kitapevi, 2004, Ankara.

 

 

 

Physical Edication:

Teoretical and practical studies.

Coursebooks:

  • Zorba E, Herkes İçin Spor. Morpa Kültür Yayınları. 2005, Ankara.
  • Rasim Kale, Yaşam boyu spor: sağlık dayanaklılık terapi, Nobel Yay, 2012, İstanbul.

 

 

Social Responsibility and Volunteering:

This course aims to create awareness, promote collaboration and solidarity, and support the development of self assessment of students. Target group for servicing in social responsibility and volunterring course: poor people, disabled people, elder people, kids, younger people, women, prisoners, refugees. In this course, we will contribute to solution of social problems as well as increase students’ sensitivity to social problems by collaboration with Directoree of National Education, Directoree of Culture, and Directoree of Social Services.

Coursebooks:

  • İşletmelerde etik ve sosyal sorumluluk, Ünal AY, Nobel Yay, 2003, İstanbul.
  • Kurumsal sosyal sorumluluk : işletmeler ve sosyal sorumluluk, edt. Coşkun Can Aktan, İGİAD Yay, 2007, İstanbul.

 

First Aid:

Basic principles of first aid, rescue and transportation of injured people, triage, first aid in respiration and circulating systems, first aid in basic life support, first aid in bleeding, wounding and shocks, medical dressing, trauma, emergencies, burns, electric schocks, heat stroke, frosbite, drowning, insect bites, calamities, poisening and nuclear wars.

Coursebooks:

  • Temel İlk Yardım, Süzen.,B, 2008 Bedray Basın Yayıncılık, İstanbul.
  • İlk Yardım Ve Acil Bakım, Sözen, C. 2006 Sistem Matbaacılık, İstanbul.

 

 

 

 

Measurment and Calibration:

Terminology of measurement and calibration, dimensional units of measurement, direct measurement methods, indirect measurement methods, measurement tools, caliper, micrometer, unit systems, maintanance and adjustments of measurement tools, temperature, mass, balance, calibration applications, other measurement tools, technical tours.

Coursebooks:

  • İsmail Binici; Endüstriyel Ölçme ve Kalibrasyon, Birsen Kitapevi, 2001
  • Yaşar Ersoy, Muhsin Mert; Boyut Analizi ve Fiziksel Ölçmeler, ODTÜ Mühendislik Fakültesi Yayın No; 55.
  • Kadir Anasız, Elektrik Ölçü Aletleri ve Elektriksel Ölçmeler, M.E.B

 

Innovation:

Contribution of innovation to business, organizational structure for innovation and management approaches, product, work model innovation, finding new business opportunities, the use of work model innovation in change management, innovation categories, creativity, approaches, case studies.

Coursebooks:

  • Paul Trott (2005), Innovation Management and New Product Development, 3e., Prentice-Hall
  • Joe Tidd, John Bessant and Keith Pavitt (2005), Managing Innovation, 3e., John Wiley & Sons Ltd

 

Marketing:

The subject, scope and evolution of marketing, strategical marketing,  marketing information system and marketing research, consumer market and consumer behaviors, industrial market and industrial buyers, market departmantalizing, target market selection, demand estimates, elements of marketing protection, service marketing, online marketing, direct marketing.

Coursebooks:

  • T.Arpacı, D.Y. Ayhan, E. Böge, D. Tuncer, M.M. Üner, Pazarlama, Gazi Yayınları , 1994
  • Cemal Yükselen, Pazarlama : ilkeler-yönetim, Detay Yay., 2001, Ankara.

 

 

 

Beehavioral Sciences:

Classical and modern management theories. Organizational process, power and authority, physcology of organization, management and motivation of the members of organizations, groups in organizations, leadership, organizational activity.

Coursebooks:

  • F. Eroğlu, Davranış Bilimleri, Beta Yayınevi.
  • Metin İşçi, Davranış Bilimleri, Der Yay, 1999, İstanbul.

 

Public Relations:

Definition, significance and evolution of public relations, aims of public relations, organization of public relations, management of public relations, communication tools in public relations, effective presentation.

Coursebooks:

  • Özdönmez M., Akesen A., Ekizoğlu, A., 1999. Halkla İlişkiler, İstanbul Üniversitesi Yayını, No. 4225, İstanbul.
  • Halkla ilişkiler, Nuri Tortop, Yargı Yay, 1993, Ankara

 

Business Law:

The origin of business law, basic concepts of business law, employee, employer, workplace, contract of service, obligations of various contract of services, legal responsibility of employers, employee health and work safety,  fundamental concepts of collective business law, union, labor contract, strike and lockout.

Coursebooks:

  • Sarper SÜZEK, İş Hukukunun Genel Kavramları , Savaş Yayıncılık
  • Nuri ÇELİK, İş Hukuku Dersleri , Beta Yayıncılık

 

Administration of Public Personnel:

Principles of administration, objectives, ricruiting of the personnel, legal right of the public personnel, obligations, interdictums, classification, evaluations, promotions, motivation, waging, diciplination, judging, termination.

 

Coursebooks:

  • Eryılmaz,B.(2007), Kamu Yönetimi, İstanbul, Erkam Matbaası.
  • Kayar, N. (2010), Kamu personel Yönetimi, Bursa, Ekin.

 

 

Engineering Ethics:

Introduction to ethics. Professionalism and codes of work ethics. Ethics in design. Rights and responsibilities in business life. Solution methods for ethical problems. Risk, safety and accidents. Responsibilities in experiments research.  Responsiblities of scientific publication. Industry- universtity relationship, ethical approaches in settlement of conflicts environmental ethics, engineer- society relationship.

Coursebooks:

  • Schinzinger, R., Martin, W. M.,”Introduction to Engineering Ethics” McGraw-Hill,USA, 2000
  • İletişim ve etik, Metin IŞIK, Eğitim Yayınevi, Konya, 2013

 

 

Engineering Economy:

Economy in engineering, Money-time relationship, computation of interests, risk analysis, bacis principles of economical analysis, decision problems, purchasing-leasing, market analysis, mathematical analysis of materials bookkeeping, statistical analysis.

Coursebooks:

  • C. S. Park , Contemporary Engineering Economics, Prentice Hall, Third Edition.
  • W. J. Fabrycky , G. J. Thuesen, Economic Decision Analysis, Prentice Hall, Second Edition.
  • E. P. Degarmo, W. G. Sullivan and J. A. Bontadelli, Engineering Economy, Macmillan Publishing Company, Eight Edition.

 

 

 

 

 

Ceramic Technology and Applications:

The definition and classification of ceramic materials and their raw materials.  The production methods of ceramic raw materials and their applications. Ceramic moulding: purpose, methods, applications.

Coursebooks:

  • Seramik Hammaddeleri, Güner Sümer, Eskişehir 2005
  • Seramik Teknolojisi, Ateş Arcasoy, İstanbul, 1983
  • Seramik Analizleri, Testleri ve Hesaplamaları, Güner Sümer, Eskişehir 2002
  • Basic Stained Glass Making: All the Skills and Tools You Need to Get Started (Stack pole Basics) (Spiral-bound)
  • http://www.anadolumedeniyetlerimuzesi.gov.tr;http://www.kultur.gov.tr; http://www.hacettepe.edu.tr

 

Performance Management:

The aim and benefits of performance management, performance indicators,  performance report, motivation of employees, goal setting, management of individual performance,  performance planning, determining the performance standarts and strategic goals,  performance models and performance measures, input used in performance evaluation. Methods used in performance evaluation.

Coursebooks:

  • Ali Coşkun, Stratejik Performans Yönetimi ve Performans Karnesi, İst., Literatür yay., 2007
  • Zeyyat Sabuncuoğlu, İnsan Kaynakları Yönetimi, Bursa, Alfa Aktüel yay, 2005.

 

Statistical Process Control:

Quality organization and management. Quality improvement and applications. Quality control circles.  statistical process control.

Coursebooks:

  • BANKS, J., 1989. Principles of Quality Control, John Wiley&Sons.
  • DOBA KADEM, F., 2011. Kalite Kontrol Ders Notları, Çukurova Üniversitesi Tekstil Mühendisliği Bölümü.Adana.
  • SAVILLE , B.P., 2003. Physical Testing and Textiles, The Textile Institute, Woodhead Publishing, England

Total Quality Management:

Quality and introduction to total quality management, goals, elements, process management, problem solving techniques, quality circles.

Coursebooks:

  • Toplam Kalite Yönetimi, Ahmet YATKIN, Nobel Yay.
  • Toplam Kalite ve Yönetimi, Said Kıngır, 2010, Nobel Yay, İstanbul.

 

 

Environment and Energy:

Definition of environment and energy, renewable and non renewable energy sources,  the impact of energy production and  usage on environment, global warming, energy saving, energy storage and conversion systems,  enregy policy of Turkey in Europe, potential future energy sources.

Coursebooks:

  1. Trevor Letcher, Future Energy, Elsevier, 2008
  2. Sarah E. Douglass, Identifying the Opportunities in Alternative Energy, ASIP VP, Investment Research Publications, 2005
  3. Fraser Armstrong, Katherine Blundell, Energy Beyond Oil, Oxfort University Press, 2007
  4. Örgen Uğurlu, Çevresel Güvenlik ve Türkiye’de Enerji Politikaları, Örgün Yayın, 2009
  5. Selen Arlı Yılmaz, Yeşil İşler ve Türkiye’de Yenilenebilir Enerji Potansiyeli, T.C. Kalkınma Bakanlığı, 2014

6. Demir İnan, Türkiye’de Temiz Tükenmez Enerjiler, Temiz Enerji Vakfı, 2006