karabuk university engineering faculty mechanical...
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Karabuk University Engineering Faculty
Mechanical Engineering (%100 English) Department Course Contents
1. SEMESTER
CAL183, Mathematics I, 4-0-4-4
Numbers, absolute value, inequalities involving absolute value function, induction, and the coordinates, complex numbers. Functions. Junction function. Trigonometric functions. Limits of functions. Continuity. Properties of continuous functions. Derivatives. Exchange rate, mean value theorem and applications. Maximum and minimum detection and its applications, hyperbolic functions and their derivatives, closed and Inverse Function Derivatives, Curves and Parametric Equations, and their derivatives
PHY183, General Physics I, 4-0-4-4
Physical quantities,units and measurements,vectors,Moment Equilibrium and Center of Gravity,Motion in one dimension,Acceleration, motion diagrams, two-dimensional motion, Newton's laws of motion, force, friction force, circular motion, non-uniform circular motion, Acceleration systems, motion, motion-resistant environments, Work and kinetic energy, kinetic energy theorem, business and power, potential energy and conservation laws, Conservative and nonconservative forces
CHE183, General Chemistry, 3-0-3-3
Matter knowledge, structure of atom, electron sequence, periodic system, chemical bonds and interactions, naming and finding valence, concepts of mole and equivalence, chemical laws, reactions and calculations, gases, solutions and concentration
CME183, Information Technologies and Applications, 2-2-3-4
Computer programming, algorithm and programming logic, flow diagrams, program development environment and program development with visual programming language.
MCE101, Introduction to Mechanical Engineering, 2-0-2-3
An introduction to Mechanical Engineering profession.Engineering disciplines, Mechanical engineering, SI and British (USCS) Systems of Units, Force, Energy, Work, Power definitions, Potential energy, kinetic energy, mechanical energy, Energy conversion from one form to another, Examples related to energy conversion, Moment and static equilibrium or force balance, Energy conservation principle (First law of thermodynamics) , Thermal energy, Forms of thermal energy transfer (conduction, convection, and radiation), Energy resources such as coal, natural gas, biofuels, nuclear, Wind and solar as renewable energy resources, Project presentation.
MCE105, Computer Aided Technical Drawing I, 2-2-3-6
Definitions and terms of technical drawing, technical drawing equipments, preperation of technical drawing sheets, standard fonts and heights of fonts, line types, properties and usage places of line types, drawing rules, geometrical drawings, inside and outside tangent drawings of lines with arcs, inside and outside tangent drawings of circles with each other; helical, ellipse, evolvement, cycloid, parabola and hyperbola drawings; scales, scales of enlargement and reduction, methods and planes of projection, views; auxiliary, special, rotated and local views; perspective views; isometric, cavalier, cabinet and bird's-eye projections; the terms and rules of dimensioning, sections and applications of sections, surface treatment symbols, surface quality, indication of surface conditions; definition of CAD system, operating CAD software, sample applications; learning line drawing on computer medium, arraying, conditional drawing, trimming; drawing circle and arc, adjusting view settings; drawing ellipse, polygon, polyline, spline, rectangular; moving, rearranging and scaling drawings; dimensioning, obtaining section view, hatching, texting, filleting, chamfering, extending, stretching, making block, replacing block, forming table and letterhead, calculating distance and area, view and zooming commands.
HST181, Atatürk's Principles and History of Revolutions I, 2-0-2-2
Definition of revolution and Turkish revolution, concept information, history of revolution movement in Turkey, strands which had came up for the sake of rescueing Ottoman Empire, I. World War, the Treaty of Sevres, collapsing of Ottoman Empire, stage of War of Indepedence, congresses, wars waged during the stage of War of Indepedence, relationships with western countries and treaties concluded with western countries, the treaty of piece of Lausanne.
TRK181, Turkish Language I, 2-0-2-2
What is language? Situation and importance of language as a social establishment in nation life. Relationship of language and culture. Situation and diffusion area of Turkish language among world languages. Letters and classification of letters in Turkish. Letter properties of Turkish and rules about phonics. Syllabography, orthographic rules and application of them, punctuation marks and application of them.
FOL181, Foreign Language I 2-0-2-2
Tenses, verbs; noun phrases: plural expressions in compound adjectives, compound nouns, noun clauses, sentences formed by participles; tenses used in narration: past simple, past progressive, past perfect simple, past continuous; intensive pronouns; irregular verbs; comparison structures; modal structures: probability, obligation, permission, ability, modals indicating wishes, future tense, simple present tense, past tense auxiliary verbs, idioms; simultaneous words; structures strengthening expression, general repetition: passive structure, tenses, adverbs.
2. SEMESTER
CAL186, Mathematics II, 4-0-4-4
Indefinite integral, methods of integration, certain integral and applications, approximate integration, generated integrals. Function series, Taylor and Maclaurin series, operations with series, vectors, line, plane and conics.
PHY186, General Physics II, 4-0-4-4
Coulomb's Law, Electric Field, Gauss Law, Electric potential, Capacitance and Dielectrics, Current and Resistance, Magnetic Fields, Magnetic Field Sources, Faraday's Law, Electromagnetic Waves.
CAL188, Lineer Algebra, 3-0-3-3
Matrices and System of Equations, Systems of Linear Equations, Row Echelon Form, Matrix Algebra, Elementary Matrices, Determinants, The Determinant of a Matrix, Properties of Determinants, Cramer's Rule, Vector Spaces, Definition of Vector Space, Subspaces, Linear Independence, Basis and Dimension, Change of Basis, Row Space and Column Space, Linear transformations, Matrix Representations of Linear Transformations, Ortogonality, The Scalar Product, Orthogonal Subspaces, Inner Product Spaces, Orthonormal Sets, The Gram-Schmidt Orthogonalization Process, Eigenvalues and Eigenvectors, Diagonalization.
CME182, Computer Programming, 2-2-3-3
To teach structure and properties of Fortran programming language, to model problems in Basic and to have skill of program writing.
MCE102, Statics, 4-0-4-4
Statics of particles: forces in plane, forces in space, equilibrium. Moment of a force, moment of a couple. Equivalent systems of forces on rigid bodies. Equilibrium in two dimensions. Equilibrium in three dimensions. Distributed forces: centroids and center of gravity. Analysis of structures: trusses, frames and machines. Internal forces in beams and cables. Friction. Moments of inertia of areas, moments of inertia of masses. Method of virtual work.
MCE106, Computer Aided Technical Drawing II, 2-2-3-3
Surface marks, Dimensional and geometric tolerances, Standard machine elements and related technical drawing, Importance of combining and types, technical drawing of machine components ( (screws, nuts, bolts, washers, couplings, flanged rigid coupling, splined connections, pulley, pin, pin, piston ring, clips, rings, springs, gears, bearings, valves, etc.), Cross-section and
assembly technical drawings.
MCE108, Measurement Techniques, 2-0-2-2
Measurement and basic concepts, used for measurement processes. Measurement and basic principles, kinds of control. Measurement at machining. Measureing technologies, classical measurement and control tools : caliper, micrometer, Comparator, pasametre, indicators,gauger.Measurement of dimension,angle and areas.PC technologies at measurement and control processes.Comparing pc cpntrols with classical measurement. Coordinate measurement tool.
HST182, Atatürk's Principles and History of Revolutions ll, 2-0-2-2
Purpose of the lesson; Teaching the victory of Turkish National Struggle, Lausanne Peace Treaty, Decleration of Independence and immediately after revolutions performed on guidence of Atatürk's Elements, Transition to multi-party System, and after 1923 Concerning the Republic of Turkey informing the students about basic local and foreign politics
TRK182, Turkish Language ll, 2-0-2-2
To be able to determine sentence components and their importance in order to be able to build correct, good and nice sentence. To know written and spoken expressions and to do applications related to them, to be able to notice language mistakes and to correct them, to know the rules about academic writing and to apply them, to develop student's ability to talk and write properly depending on the texts selected from Turkish and World literature and thought history.
FOL182, Foreign Language lI 2-0-2-2
To help the students to: - write an essay in specified criteria synthesizing information from various academic sources. -develop analytical and critical thinking skills. - evaluate, synthesize and respond to the ideas in the texts. - enlarge their active vocabulary size by student-centered vocabulary tasks. - practice paragraph writing which is the basic unit for academic writing (term papers, reports).
3. SEMESTER
FOL281, Technical Foreign Language I, 2-0-2-2
Describing technical functions and applications, explaning how technology works, simplifying technical expressions, describing special materials, classification of materials, describing part shapes and properties, explaining production techniques, explaining connection and assembly techniques, working with drawings, defining dimensions and precision points, describing types of technical problems, discussing repair and maintenance, presenting ideas and solutions, assessment of convenience, describing recruitments and redesigns, describing health and security precautions, describing automation systems, explaining tests and experiments, comparison of expactations with results, discussing performance and convenience.
CAL283, Differantial Equations, 3-0-3-4
First-order differential equations. Nonlinear equations reducible to linear equations. Equations with constant coefficients. Systems of linear equations. Differential equations with variable coefficients. Partial differential equations. solution with separation of variables. Fourier series and Fourier integrals. Orthogonal functions, applying to boundary and the first value problems.
MME261, Materials Science, 3-0-3-4
Classification of engineering materials. Iron and steel production. Types and use of steel and cast iron. Heat treatment of metals and alloys. Non-ferrous metals and alloys and their use in engineering applications. Types, properties, principal uses and manufacturing techniques of ceramics, polymers and composite materials. Failure of materials. Nondestructive testing of materials. Materials selection in engineering design.
MCE219, Manufacturing Processes I, 3-1-4-5
Production of pig iron, cast iron and steel. Production of nonferrous metals. Foundry. Design of cast workparts. Contemporary casting processes, special and die casting. Conventional and modern welding processes. Hot and cold working of metals. Principles of plastic deformation. Powder metallurgy. Machinability, cutting tools; tool life, tool geometry and tool materials. Methods of metal cutting. Turning, milling, shaping, planing, broaching, drilling
and grinding operations. Nontraditional machining and other special processes. Engineering metrology and quality control; basic terminology, some measuring instruments and errors of measurement.
MCE221, Termodynamics I, 3-0-3-4
System and its environment, system characteristics, system balance, state change of system, thermodynamic equilibrium, ideal gas equation of state, energy. Energy exchange between system and its environment, change state and thermodynamic process, reversible and irreversible processes, entalphy of simple system, specific heats at constant volume and at constant pressure, pure substances, pressure, the relations between specific volume and temperature. The first law of thermodynamics, the first law of thermodynamics and closed system, the first law of thermodynamics and open systems. Second law of thermodynamics, entropy, the numerical value of entropy, open system and the second law of thermodynamics, efficiency, thermodynamic analysis of processes. Third law of thermodynamics.
MCE217, Strength of Materials I, 3-0-3-4
Support types of structures and reaction forces, internal forces and section method; Introduction to Strength of Materials; Stress: Normal, shear and bearing stresses; Strain: Hooke’s law and modulus of elasticity, Deflections of axially loaded bars, Strain measurement and strain gages; Stress transformations: Mohr circle; Failure theories; Stresses in thin-walled pressure vessels, Moments of areas: First moment of an area, Second moment of an area (Moment of inertia); Torsion; Pure bending; Beams under transverse loading: Internal shear force, normal force and bending moment in beams; Shear force and bending moment diagrams; Stresses in beams; Deflections of beams and elastic curve: Double integration method, superposition method, moment area method; Statically indeterminate beams.
MCE215, Dynamics, 3-0-3-4
Kinematics of particles; velocity and acceleration in rectangular, cylindrical, spherical and normal and tangential coordinates. Rectilinear motion. Relative motion. Kinetics of particles; Newton's law of motion. Equation of motion. Work. Impulse. Momentum. Principle of work and energy, principle of impulse and momentum. Angular momentum, angular impulse and momentum principle. Kinetics of systems of particles. Planar kinematics of rigid bodies, instantaneous center of rotation. Planar kinetics of rigid bodies. Three dimensional kinematics of rigid bodies. Three dimensional kinetics of rigid bodies.
EEE261, Basic Electric and Electronic, 2-0-2-3
Overview of electrical and electronics engineering, basic electrical quantities, components, and circuits, Kirchhoff’s laws, resistive circuits, node and mesh analysis, Thevenin and Norton equivalent circuits, inductance and capacitance, practical instructions to use instruments such as voltmeter, ammeter, and oscilloscope, transients and sinusoidal steady state, phasors, impedances, logic gates and basic combinatorial circuits, diodes, transistors, operational amplifiers, magnetic circuits and transformers, DC machines, and AC machines.
4. SEMESTER
FOL282, Technical Foreign Language II, 2-0-2-2
In global world ,it is too important following developed technology and new acedemic studies.By this lecture, the students can learn technical English and this enables to beter understand of acedemic issue or new design techonology. Furthermore , their translation and communication skills can improve by this way.
INE260, Engineering Statistics, 2-0-2-3
Statistical Definitions and General Concepts, Data Collection and Measures of Central Tendency, Analytical avarages: Arithmetic, Geometric, Harmonic, Square Calculation of avarages, Measures of Variety: Asymmetry and Kurtosis of asymmetry Pearson dimensions Dimension, The Concept of Moment, Moment-based Asymmetry and Kurtosis Measures, Index concept, Time and Space Indices, Fixed and Variable Index, Price and Quantity Indexes, Simple
and Composite Indexes, the cluster theory and Probability calculation, and the Action Theory of Probability.
MCE212, Mechanisms, 3-0-3-4
Introduction to mechanisms; Mechanism examples, the basic definitions, degrees of freedom, restriction of movements of kinematic elements. Classification of mechanizms, kinematic analyses of bar mechanisms, position,velocity and accelaration alayses by using graphical and analitic methods.Linear mechanical systems, simple gear trains, cam mechanizm.
MCE216, Manufacturing Processes II, 3-1-4-5
Definition of welding operation. Classification of welding methods and electric arc welding. Physics of arc. Welding machines and their equipments. Setup and controlling of welding machines. Electrods and selection of electrodes. Internal structure of weldings and welding faults. Methods of submerged welding. Methods of gas welding and pressure welding. Machining processes.
MCE218, Termodynamics II, 3-0-3-4
Thermodynamic relations, a simple compressible system for the basic relations, the chemical does not react mixtures, used in practice, some cycles, the conversion of steam engines, gas cycle machines, refrigeration machine cycles, reactive mixtures, the combustion process, the standard state energy and enthalpy, enthalpy of combustion, fuel and lower high calorific value, theoretical reaction temperature, adiabatic flame temperature. Chemical equilibrium, chemical equilibrium constant, the one-dimensional compressible fluid flow.
MCE220, Strength of Materials II, 3-0-3-4
Stress transformation, strain transformation,design and failure, combined axial and torsional loading, stability of columns, energy approach, eigenvalue approach,
MME260, Engineering Materials, 3-0-3-4
Heat treatment of metals. Surface properties, corrosion and metal coatings. Nonmetallic materials; polymers, ceramics. Composite materials. Selection of engineering materials.
CAL282, Numerical Analysis, 3-0-3-4
This course includes: elements of error analysis, real roots of an equation, polynomial approximation by finite difference and least square methods, interpolation, quadrature, numerical solution of ordinary differential equations, and numerical solutions of systems of linear equations. Programming a computer in addition to using a graphing calculator.
5. SEMESTER
MCE399, Industrial Practice I, 0-0-0-2
The name, address, history, work item and staff number (technical and other staff) of company interning. Raw material procurement, raw material dimension, machining allowances, quality of material and materials selection. To be drawn the site plan of machine tools existing in company and to be investigated the capacity and technical characteristics of each machine tools. To be investigated in which machine is used in processing of each products and to be particularly investigated processes done; drawing of work flow diagrams; having knowledge about special apparatus, tools and auxiliary tools used in producing of products; drawing of technical drawings of products according to work flow during manufacturing. To be particularly investigated of production techniques using in company such as cast (model and core making, core and molding materials, moulding procedures, melting, casting techniques), heat treatment (tempering, normalization, age hardening, surface coating), plastic forming (cutting, bending, spinning, diesinking, pressing, rolling, hammering), steel construction (weld, stop pin, cutting). Making a statement about emerging technologies using in manufacturing. Explaining how the daily, weekly, monthly and yearly maintenances of machine tools using in company are done and the maintenance cards or reports. Introducing of raw materials and products, defition of their
properties, material testing and quality control, introducing of measurement tools used, control and maintenance of measurement tools.
FOL381, Speaking and Reading Tech. at Foreign Language, 2-0-2-2
The purpose of this course is to develop students' English academic reading skills and become self-sufficient and to provide the reader with the ability to think critically.
MCE301, Fluid Mechanics I, 3-0-3-3
Basic concepts and definitions. Fluid kinematics. Fluid statics. Manometers and pressure measurements. Hydrostatic forces on immersed bodies. Solid body translation and rotation. Equations of conservation of mass, momentum and energy for systems and control volumes Bernoulli equation and applications.. Navier-Stokes equations and its applications. Stream function and flow potential. Dimensional analysis and similarity. Viscous Flow in pipes and ducts. Laminar and turbulent boundary layers. Major and minor losses in pipes. Flow over immersed bodies. Boundary layer equations. Compressible flow. Fluid Machinery. Water hammer.
MCE303, Machine Elements I, 3-0-3-3
Mechanical engineering design activity and importance of machine elements knowledge in this activity. Fundamentals of design and applications of machine elements. Welded, soldered, adhesive bonded, riveted joints. Shaft-hub connections. Bolted joints and power screw mechanisms. Pins, knuckles, springs, shafts and axles, coupling and clutches, lubricants and lubrication theory, sliding and rolling bearings, Fundamentals of speed reduction mechanisms, kinematics and geometry of gearsbelt drive and chain mechanisms.
MCE305, Heat Transfer, 3-0-3-3
Mechanisms of heat transfer. Steady and transient heat conduction in solids, solution methods. Laminar and turbulent forced convection, natural convection. Phase change heat transfer. Heat exchangers. Radiation heat transfer.
MCE307, Dynamics of Machinery, 3-0-3-4
Mechanical Dynamics, motion and energy that used by the teaching of mechanical engineers, mechanical design, dynamics and strength of a vocational course in basic practices closer. Students who have adopted the principles of dynamic resistance and is easier to follow this course. Use software such as Mathcad, homework solutions, makes it easy.
MCE309, Hydraulics and Pneumatics, 3-0-3-4
Introduction to hydraulics and pneumatics; Principles of power hydraulics and pneumatics; Hydraulic and pneumatic fluids; Hydraulic and pneumatic piping and sealing; Hydraulic and pneumatic actuators; Directional control valves; Servo valves; Pressure control; Hydraulic pumps; Hydraulic symbols; Hydraulic circuits and symbolic presentation; Pneumatic system elements and symbols; Pneumatic circuits design; Applications of vehicle hydraulic and pneumatic systems
MCE311, Heating Technology, 3-0-3-4
Importance of heating and heaters, heating systems, local and central heating systems, efficient of boiler, boiler montage rules, piping, chimneys, dilating tanks, hot water heating systems, function of pumps, maintenance of pumps, floor heating systems, high temperature water heating systems.
MCE313, Machine Tools, 3-0-3-4
Machining Theory, Basic metal cutting mechanics, to be measured of tool forces, cutting force, Ernst and Merchant Theory, friction, tool life and tool wear, metal cutting economy, cutting fluids and its effects to cutting, tool temperature theory and calculations. Cutting force and cutting power on turning, drilling, hole processing, planing, milling operations, processing time and processing parameters, cutting speed, pass depth calculation.
MCE315, Alternative Energy Sources, 2-0-2-3
To introduce all energy sources except fossil fuels, teaching the existing potential of these resources in the world and to teach the methods to obtain these resources.Examining environmental and economic dimensions of alternative energy sources.
MCE317, Plumbing Systems and Design 2-0-2-3
All plumbing systems used. City to begin a clean water supply network sudepoları, air pressure tanks, pipe connections, clean water, water heaters, boilers, boilers, hot suhazırlama systems. Building waste water plumbing systems in connection sistemlerive binasıhhi presentation systems such as storm water connection and change these systems, renovation, development, re-designed in accordance with the comforts and diameter of these systems, capacity and power calculations.
MCE319, Modern Engineering Measure Techniques, 2-0-2-3
Analyses of experimental results. Undetermination analysis. Pressure measurement. Flow measurement. TEmperature measurement.Thermal conductivity measurement.Energy efficiency measurement tools.Designs of experiments and presentation.
MCE321, Advanced Manufacturing Planning, 2-0-2-3
Basic concepts; production phases of the product, manufacturing systems, automation, with the help of computer design (CAD), with the help of computer manufacturing (CAM), computer integrated manufacturing (CIM). Manufacturing systems, manufacturing and process planning, production capacity for calculating techniques.
MCE323, Surface Treatment, 2-0-2-3
Surface definition, metal surface properties, process applied to surface and their important, processes applied to metal surface before surface processing, process changed to surface properties, Surface modification process, General view to surface coating process and their descriptions, processes making in the gas phase.
SOC301, Labour Law, 2-0-2-2
Individual Labour law: Concept of Labour Law, Sections of labour law, sources of labour law, Basics of labour law: employee, employer relationships, workplace, plant, Labor contracts and kinds, labour contracts making
SOC303, Patent and Industrial Design, 2-0-2-2
Design, project, technology concepts and their meanings, Analysing research and development studies, teaching the Patent concept.
SOC305, Entrepreneurship, 2-0-2-2
Enterprise set-up and development as well as knowledge of entrepreneurship on the historical and society level. The course offers students a good arena to understand what entrepreneurship is and if it is something for them.
SOC307, Communication Skills, 2-0-2-2
Both the daily issues and the topics in different levels are discussed with the students.
SOC309, International Communication, 2-0-2-2
Defiiniton of international communication, Purpose and Progress of International communication, a short history of international communication. Relationship between international communication to basic definitions such as economy, culture, politics. The relevance of the communication process with the process of globalization, international, technology, raw material, organization, and the transfer of the law
SOC311, Critical Analytic Thinking Techniques, 2-0-2-2
Definitions, brain as the thinking organ, Grouping thinking, optional thinking and properties, Critical and Analytical thinking.
6. SEMESTER
FOL382, Foreign Language for Business, 2-0-2-2
Job application to various institutions and companies, project application, writing articles to establish commercial relations, job interviews with companies, talking on the phone, Working in English-dominated work environment, preparation of documents such as the application, request, response , report forms etc.
MCE302, Machine Laboratory, 2-1-3-3
Enabling students to make experiments on “thermodynamics” and “energy” areas of mechanical engineering. Given the basic mechanical engineering subjects, student groups will design of the experiment setup, installation and calibration and make experiments for specified system parameters. Detailed reports will be prepared and presented for each experimental study.
MCE304, Fluid Mechanics II, 3-0-3-4
Introduction to differential analysis of fluid motion. Continuity, momentum and energy equations. Incompressible inviscid flow. Velocity potential. Stream function. Elementary plane flows. Dimensional analysis and similitude. Incompressible viscous flow, Navier-Stokes equations. Boundary layer in laminar and turbulent flow. Fluid flow about immersed bodies. Introduction to compressible flow. Steady one-dimensional compressible flow.
MCE306, Machine Elements II, 3-0-3-4
Couplings and Clutches , Couplings, Couplings and Clutches, Classification of Clutche , Couplings and Clutches, Force-Torque Analysis of Clutches , Gear Mechanisms, Classifications and Characteristics Gear Mechanisms, Force-Torque Analysis, Gear Mechanisms,Spur Gears, Gear Mechanisms,Helical Gears, Gear Mechanisms,Bevel and Worm Gears Tribology, Friction Tribology, Wear and Lubrication, Bearings, Fundamentals of Journal Bearings, Bearings, Computational Methods of Journal Bearings,Rolling Bearings,Fundamentals of Rolling Bearings, Rolling Bearings, Computational Methods of Rolling Bearings
INE360, Engineering Economy, 2-0-2-3
The basic concepts of engineering economy, basic economic concepts, cost concept, the concept of interest and interest formulas, cash-time formulas. Applications of engineering economy, monetary-time implementation of the formula, a comparison of alternative solutions, estimate the cash flows, inflation and price changes, renewal investments. Additional topics in engineering economy, decision making under risk, decision-tree applications, impact diagrams, the expected value by the method of decision making, decision-making under uncertainty, strategic assessment techniques.
MCE310, System Dynamics and Controls, 3-0-3-4
Modeling of physical systems. Energy gates. One and two-port elements. Mechanical, electrical, fluid and thermal system elements. Linear graph. Determining Dynamic equations. Modeling of impure elements. Linearization. State variables. Determining System of equations in the form of A-matrix. Physical, canonical and phase variables. Functions and block diagrams of system answers. Transfer time. Basic concepts of automatic control. Control operations. Time response. Stability and Routh-Hurwitz criterion. Location of the root curves. Methods of frequency response and Bode diagrams.
MCE314, Refrigeration Technology, 3-0-3-4
Cooling methods, basic mechanical refrigeration systems, cooling system, auxiliary elements, refrigerants and oils, household-type coolers.
MCE316, Computer Aided Design I, 3-0-3-4
3D solid modeling design software with a current 3D methods. The Software User Interface, Toolbars, File Storage and Backup Creating, Deleting Files, Multiple Files and Window Opening Session, apparently Control, Appearance Mode, Mouse Gestures for Object Orientation Process. Solid Modeling Elements: Home Elements, Secondary Elements. Correction factors, Element Operations. Surface Modeling, Interactive Surface Design. Assembly, Assembly-Track Operations. Drawing (Technical Drawing), measurement classification, Surface Roughness, Size and Geometric Tolerance signs, Drawing File Creation. Industrial Applications.
MCE318, Solar radiation, calculation of solar radiation on horizantal surfaces.
Solar Energy and Applications, 2-0-2-3
Transmission of solar radiation through glass and plastics. Performance and theory of flat plate solar collectors. Concentration collectors. Energy storage, electric power generation using Energy, various applications of solar energy. Heat losses from solar collectors. Conversion of solar energy into electrical energy; solar cells.
MCE320, Natural Gas Installation, 2-0-2-3
General Features of natural gas, Building Exterior Natural Gas Installation, Interior Building Natural Gas Installation, Gas Consumption Working with Devices, E. Natural Gas Safety Rules, Natural Gas Installation Basic Concepts, Natural Gas Equipment and Classification, Placement Rules, Natural Gas Installation Account and Projection, Combustion Air Supply Disposal of gas and burnt, Tube Circuit Control and Commissioning, Project implementation (starting with 3 weeks until the end of the period continued application)
MCE322, Energy Management, 2-0-2-3
Turkey's overall energy situation, Turkey, the structure of industry and textile sector; energy efficiency and management concepts, energy management systems golden rules, and energy management system creation, fuels and combustion, steam systems, steam boilers and energy efficiency, mass and energy balances; Waste heat utilization; trijenerasyon Cogeneration and electricity systems, energy efficiency, thermal insulation and economic analysis methods.
MCE324, Modern Manufacturing Methods, 2-0-2-3
Introduction to advanced production methods, with the electron beam processing, ion beam treatment, chemical processing, with Electro-erosion machining, ultrasonic machining, laser beam and processing, water jet machining, Plasma arc manufacturing, Rapid Prototyping and private methods.
MCE326, Systematic Design, 2-0-2-3
Theoretical and practical course is tought for performing an engineering design thereby learning of whole compenents of mechanical systems.
MCE328, CNC Programing, 2-0-2-3
CNC machining and their advantages, CNC vertical milling machines and CNC lathes. of programming on cnc milling machines. Technological and geometrical information for programming. Operating and programming on cnc turning machines. Selecting proper cutting tools and İdeal machining parameters and conditions for cutting tools. General safety rules and principles of clamping and fixing workpieces on the machine table. Absolit and incremental dimensioning, M and G codes, linear and circular interpolation, counturing, milling and turning cycle programming. Control panels and their functions, tool magazines. Practice of programming methods on the CNC machines (Mastercam, Top Solid, Solidwork, Catia, Unigraphic and pro-engineer). Practical work and practicing and using these programming methods on the machines. Peck drilling, thread cutting. etc .. operations and other machining cycles. Basic information about electro-discharge machining technology. Electro-discharge machines, control panels, selecting proper electrods and cutting parameters for machining. Basic principles of wire EDM Technologies and industrial applications.
SOC 302, Research and Presentation Skills, 2-0-2-2
Study of the techniques of scientifitic and investigation, using of gains about them and presentation techniques for the student.
SOC 304, Human Resources Management, 2-0-2-2
Personnel management, definitions and scope. Relationship with other sciences. Personnel problems and solutions. Personnel control. Human resources (internal resourcing and outsourcing). Work load analysis. Workforce analysis. Personnel evaluation methods. Personnel education and development. Work evaluation techniques. Wage systems. Motivation. Leardership. Complaint mechanism. Communication. Discipline. Health and protection.
SOC 306, Management Systems, 2-0-2-2
Definition of management. Historical development of management concept. Definition, and types of organization. Organization charts. Managemant of information, learning, culture, structure, continuity, power and politics in organizations. Management etics. Gender and management. Management functions (planning, organising, carrying out, coordination, auditing). New management techniques. Management with objectives. Management according to exceptions. Quality control chambers. Benchmarking. Management of change. Strategic management. Relationships between organizations.
SOC 308, Occupational Health and Safety, 2-0-2-2
Basic concepts of occupational safety and health. Basic working areas of ergonomics. Reasons of work accidents. Avoidance models. Calculation of costs. Investigation and reporting. Occupational illness, its types and avoidance methods. Occupational safety methods at workshop and laboratuaries. Personel and machine protective equipments. Fire and explosion prevention methods. Principals and objectives of first aid. ISG legislation.
SOC 310, Corporate Behavior, 2-0-2-2
Configuration of technology and industry. Adventages of technology and competition. Technologic options, strategies and analitic tools. Partnerships and strategic agreements. Technology and structure. Technology and process. Technology and culture. Technology and total quality. Technology transfers. R&D management. R&D productivity. National politics and and R&D. Technoparks and innovational organizastions. University-industry R&D association. Patents and legal regulations. R&D trends.
SOC312, Standardization, 2-0-2-2
To teach the principles and practices of standardization in national and international areas.
7. SEMESTER
MCE499, Industrial Practice II, 0-0-0-2
Examination of the general layout plan of the factory, examining the factors taken into consideration in selecting office, removed from the examination of the factory management and organization chart, organization and promotion of production units and functions specified separately, examining the relationship between the units, examination and discussion of the production, assembly line type and properties, Manufacture of products of the business flow chart plotting
MCE401, Factory Organization, 2-0-2-4
Plant and factory definition, classification and organization phase, a new factory in the planning, feasibility report preparation, data collection and evaluation, industrial buildings and land selection, plant layout problems, time and cost calculations, technical reports, preparation of general management and administration, the factory internal management and personnel relations, administrative duties and responsibilities.
MCE403, Machine Project I, 2-0-2-6
Students want to specialize in a field project in their course content as, gear box design, ventilation project, heating project, maintenance and repair projects, etc.. As
ATE461, Engines, 3-0-3-4
The overall structure of motor vehicles and elements, the concept of friction, hydraulic concepts, Moment converters, Vehicles resistance of the path, the transmission requirements, manual gear boxes, gear shift mechanism, brake mechanism, ABS braking systems, automatic boxes.
MCE407, Basics of HVAC, 3-0-3-4
Cooling methods, basic mechanical refrigeration, cooling system, auxiliary elements, refrigerants and oils, household-type coolers
MCE409, Heat exchangers definition, application areas and the capacity and efficiency
Heat Exchangers, 3-0-3-4
calculations
MCE411, Combustion Technology, 3-0-3-4
Combustion definition. Combustion flame shapes and types. Combustion and thermochemistry, thermodynamic laws, materials and products entering reaction mixtures, adiabatic flame temperature, chemical balance. An introduction to mass transfer, mass transfer fundamentals, some applications of mass transfer.
MCE413, Computer Aided Manufacturing, 3-0-3-4
Manufacturing model creation by any type of CAD part format. Operation step organizing for special machine center. Tool and fixture setting CNC manufacturing for specific 3d model. Milling, drilling and turning operations. Cutter location data creation, inspection, simulation and post processing.
MCE415, Welding Technology, 3-0-3-4
Introduction. Welding machines. Welding electrodes. Welding arc and formation theory. Melting and non-melting welding types. Factors effecting the welding capability of the materials. Welding of stainless steel and materials other than iron. Design of welding plans and presentation of applications at various industries. Welding metallurgy, quality at welding manufacturing and parameters affecting quality. Welding symbols. Welding errors. Destructive and non-destructive welding inspection methods. Labour health and work safety during welding.
MCE417, Computer Aided Design II, 3-0-3-4
Introduction to parametric design techniques for 3D parametric solid modeling softwares. Parametric product (part&assembly) design. Special modules such as mold and cast modeling, sheet metal modeling, mechanism simulation design, flexible and freeform feature creation tools.
MME461, Material Inspection, 3-0-3-4
The importance of quality control and quality control methods. Widely used non-destructive inspection methods; liquid penetrant, magnetic particle, ultrasonic, radyografik (x-ray, gamma), with eddy currents and other methods of examination. Introduction to destructive methods
MCE419, Thermal Insulation, 2-0-2-3
Importance necessity and related standards of the Isolation, the varieties insulating material of the insulating material, specifications, user locations and other information applications (cold and hot insulation), and insulation to reduce heat loss, thermal insulation applications in structures, insulation and insulation-free status of the comparison.
MCE421, Nuclear Power Engineering, 2-0-2-3
Atomic structure. Bond energy. Radioactive decay. Nuclear reactions. Fission. Fusion. Neutron interactions. Affect sections. Continuous thermal reactor in the regime analysis. Diffusion equation and its solutions. Four-factor equation. Criticality calculations. Transient analysis of thermal reactors. Nuclear reactors and components. Fission reactors (pressurized water reactors, boiling water reactors, heavy water reactors, gas cooled reactors, fast reactors are productive, advanced fission reactors). Fusion reactors. Hybrid reactors.
MCE423, Energy Machines, 2-0-2-3
Primary energy sources, thermodynamic basics, heat exchanger, boiler and steam generator, gas turbine, steam power plant, combined cycle power plant, cogeneration: combined heat and power.
MCE425, Heat Economy, 2-0-2-3
Need of heat economy, importance of ideal insulation thickness, the total heat transfer coefficient, thermal insulation on pipes, graphic analysis of the insulation thickness detection, isolation materials, cost and depreciation analysis, pipe flow, the temperatures decreases, in the steam circuit yield reduction, interval superheating of steam, Economizer, heating boiler feed water.
MCE427, Heat Pumps,
General information, heat pump types; Vapor Compression; Absorbtion; Termolelectric and others, heat pump systems, heat pump design, system
2-0-2-3 analysis, design and control. Applications in buildings, hot water supply, heating, cooling and moisture removal operations. Industrial applications of heat pumps
MCE429, Gas Turbines, 2-0-2-3
1.Historical development of gas turbines, classification, classification of stream processing, compressibility, one-dimensional compressible flow of ideal gas, flow in the constant and various cross-sectional channels 2 Theoretical cycles, theoretical Brayton cycle, regeneration, gas turbines with intercooler and interheater, closed system gas turbines. 3. Actual cycles, stagnation values, compressor and turbine efficiency, pressure losses, regenerator efficiency, mechanical losses, the air / fuel ratio and combustion efficiency, performance, work and air ratios 4 Aviation gas turbines, jet engines without compressors, turbojet, turbofan and turboprops, performance criteria, efficiencies 5 Compressors, centrifuges compressors, axial compressors, the speed diagrams of the compressor stages, characteristic of stage 6 Combustion chambers, ensure of fuel, type of combustion chamber, combustion characteristics, gas turbine fuels, emissions 7 Turbines, turbine stage, velocity diagrams, impulse and reaction, fins parameters 8 Recent developments, fuel economy, weight and dimensions, transmission needs materials, comparison.
ATE403, Electric and Hybrid Vehicles, 2-0-2-3
The aim of this course; the types of electric vehicles, batteries, and battery modeling, hydrogen sources and storage, electrical machines and controller censors, engine cooling, efficiency, electric machines for hybrid vehicles and environmental impacts to be informed about these issues.
ATE461, Vehicle Technology, 2-0-2-3
This course is an introduction to vehicle dynamics. The course content includes "Structure and mechanics of pneumatic tires, road resistances, traction and powertrain limited performance characteristics of road vehicles, braking, handling and ride".
MCE431, Computer Applications in Construction, 2-0-2-3
Design Theory – Statics and Strength of Materials, Analysis and Design of Mechanical Construction Systems, Construction Methods and Materials, Construction Graphics, Estimating Methods, Planning and Scheduling, Safety
MCE433, Ergonomic Product Design, 2-0-2-3
Human Factors And Systems, Human Factors Research Methodologies, Human Output And Control, Workplace Design, Environmental Conditions, Human Errors, Accidents And Safety, Human Factors And The Automobile, Human Factors İn Systems Design
MCE435, Kinematic Synthesis, 2-0-2-3
Introduction to kinematic synthesis. Basic bar mechanism design: Grashof Theorem, the optimum connecting angle, arm-pendulum and Slider-Crank mechanism. Two, three and four position synthesis: graphical and analytical methods, modeling with complex numbers, applications of Freudenstein equation. Correlation of arm angle. Current practices.
MCE437, Control System Design, 2-0-2-3
System definition, the concept of feedback. Structures and properties of open and closed loop control systems, calculation of transfer function. Block diagrams, simplifying methods and simplification of block diagrams with MATLAB commands. Signal flow diagrams and their properties, transfer function calculation by Mason gain formula and the sample applications. To be expressed of the systems in the form of state-space detection of state variables and be created of phase variation block diagrams. The concepts and types of model. Static and dynamic components in systems. Modeling of the electrical and mechanical components and relations between their. To be issued the mathematical models of the electrical systems, transition and rotating mechanical systems. Modeling of array structure. Effective impedance calculations. Electrical and mechanical system similarity. Modeling of electromechanic systems and sample applications about subject. The examination of answers in the time-plane of first and second order systems. To create the transfer function and phase variation block diagram at package programs ( in the simulink toolbox of MATLAB) and to be obtained the
simulation results according to sample input signals.
MCE439, Computational Methods in Mechanical Engineering, 2-0-2-3
Error analysis, Solving sets of linear equations and the equation, Solving sets of nonlinear equations , interpolation, Numerical differentiation, numerical integration, numerical solution of ordinary differential equations.
MME463, Powder Metallurgy, 2-0-2-3
Introduction to powder metallurgy, powder characterization, mixing and blending, lubrication, mold and sintering connectings compressed, full of dust condensation techniques
MTE461, Robotics, 2-0-2-3
Short history and present-day practice areas. Coordinate systems and conversion charts. Robot arm with the representation of notasyonlandırılması and homogeneous matrix. Direct and inverse kinematics, Jacobian matrix. Camera and image processing.
ATE461, Vehicle Technology, 2-0-2-3
This course is an introduction to vehicle dynamics. The course content includes "Structure and mechanics of pneumatic tires, road resistances, traction and powertrain limited performance characteristics of road vehicles, braking, handling and ride".
ATE465, Air and Space Vehicles, 2-0-2-3
Design synthesis, optimisation and flight simulation of novel aircraft concepts, conceptual design methodologies for future aerospace vehicles, development of robust control-theoretical foundations for linear feedback flow control of unstable fluid systems that recognise the limitations set by the requirements of wall sensing and actuation, stability analyses and provision of benchmark data for transition, active and passive control of boundary layers by surface deformation using electroactive polymers, separation delay and base-pressure control of bluff bodies with "synthetic" jets, control of shock-wave/boundary layer interactions, passive and active multiscale turbulence control of wakes and boundary layers, active & passive control of combustion instabilities, entropy noise and helicopter noise.
8. SEMESTER
MCE400, Graduation Thesis, 0-2-1-6
Engineering problems encountered in professional life would motif makers to devise solutions to provide, to provide a new scientific concepts to create.
ENG402, Engineering Ethics, 2-0-2-2
Ethical concepts. Professionalism and professional ethics codes. Ethics in design. Rights and responsibilities of business life. Ethical problem-solving techniques. Risk, safety and accidents. Responsibility for scientific research. Responsibility for the experimental study. Powers and responsibilities of the printing and publication of research results.
MCE404, Machine Project II, 2-0-2-4
Students will encounter in professional life to devise solutions to the problems of providing engineering, project engineering etc.
MCE406, Control Elements and Applications, 3-0-3-4
The main goal of the course to students, introduce control elements, control elements to explain the principles of application of the control system can set up to provide training.
MCE408, Thermic Turbo Machines, 3-0-3-4
Course under steam turbines, compressors, ventilators and a mechanical engineer facing the most machines. In the past only used in thermal power plant turbines, vehicles and factories today are finding wide application possibilities. These machines are very expensive in our country are produced in limited. For these reasons these machines project, selection and knowledgeable engineers are needed to operate.
MCE410, Steam Boilers and principles to explain the general concepts related to the
Steam Boilers, 3-0-3-4
design of Steam Boilers and projected to be able to provide training
MCE412, Thermal System Design, 3-0-3-4
Comprehending basic information related to heating systems
MCE414, Transport Techniques, 3-0-3-4
Main purpose of the course students, giving knowledge abaut lifting and moving machinery-related topics in basic engineering design projects.
MCE418, Mechanical Vibrations, 3-0-3-4
To present the basic characteristics of vibrations and their place and importance in the mechanical engineering applications.To teach and to apply the methods using analysis of engineering problems including vibrations.
MCE420, Die/Mold Design Techniques, 3-0-3-4
The sheet metal molding, drilling, cutting, bending, pulling to identify patterns
MME460, Heat Treatment, 3-0-3-4
To give information and practice about the general heat treatment information, applications and principles, and the heat treatment of the ferrous and non-ferrous alloys.
MCE422, Computational Fluid Dynamics, 2-0-2-3
The student computational fluid dynamics (CFD) to introduce the principles. CFD to teach the application of fluid mechanics and heat transfer problems. Create a theoretical foundation on the subject. CFD'ni using a commercial program to teach the application of various engineering problems.
MCE424, LPG and Natural Gas Applications, 2-0-2-3
Teaching basic concepts about LPG gas distribution lines and related technical information also teach and demonstrate their applications in natural gas distribution lines, and also students who complete their course learns what applications
MCE426, Pumps, 2-0-2-3
Pumps operating principles, characteristics and knowledge and skills related to the selection.
MCE428, Heating System Design, 2-0-2-3
Gaining basic principles of hot-water heating systems, components, applications and automation.
MCE430, Air Conditioning and Ventilation Systems Design, 2-0-2-3
Teaching tp project Fundamentals and rules of air conditioning.
MCE432, Drying Technique, 2-0-2-3
To introduce students abaut drying system. Teaching drying systems application by heat transfer and fluid mechanics. Creating the theorcal bases on students abaut the subject.
MCE434, Aerodynamic, 2-0-2-3
To give the basic concepts of incompressible aerodynamics, To solve the problems of the basic aerodynamics
MCE436, Industrial Energy Efficiency, 2-0-2-3
To know the status of Turkey's overall energy. To know the structure of the Turkish Industry and comprehending energy consumption. To understand energy management.
MCE438, Modern Welding Processes, 2-0-2-3
The purpose of this course is to give detailed knowledge to the student about fusion and solid state welding techniques.
MCE440, Constructive Computer Aided Styling, 2-0-2-3
Computer Aided Design programs are used in machinery industry (Mastecam Draft / Desing, Surf cam, Edge Cam, Mechanical Dekstop Vb.) Using a computer drawing and design can do.
MCE442, Introduction to Biomechanics, 2-0-2-3
People make up the structure of bone, muscle, cartilage, tendon, nerve, blood and other structures and mechanical properties of engineering analysis approach.
MCE444, Maintenance in Manufacturing, 2-0-2-3
To understand the today’s principles of maintenance and breakdown finding. To understand the breakdown warning and detection systems. To prepare the breakdown finding flow chart. To care and to repair on the electrical-electronic components, electrical machinery and mechanical systems.
MCE446, Dynamic Systems Design, 2-0-2-3
To present the dynamical systems. To present the mathematical analysis methods in the modeling of dynamical systems and to understand the modeling methods with examples.
MCE448, Agricultural Machinery, 2-0-2-3
In this course, agricultural tools and machinery using in agricultural production will be explained as theoretical and applied
MTE460, Mechatronics System Design, 2-0-2-3
To ensure that Mechanical Engineering student can design mechatronic systems using by sensitive components, rousing, electric-electronic components and microprecessors.
MME462, Plastic Forming, 2-0-2-3
Basic principles of plastic deformation. Plastic deformation mechanisms. Effusion criteria. Stress-strain relations in the plastic deformation. Factors affecting plastic deformation. Cold and hot forming. Structural changes occurring after plastic forming. Plastic forming methods. Hammering. Rolling. Extrusion. Wire and rod drawing. Sheet metal forming. Limit diagrams
MME464, Composite Materials and Manufacturing Methods, 2-0-2-3
General definitions and classification of the composite materials. Analysing of micromechanical and macromechanical behavior of the compozite materials. Applications of the composite materials. Reinforcements in a composite materials. Reinforcements-matrix interface and wetting. Processing of metal matrix composites, ceramic matrix composites and polymer matrix composites. Some commercial metal matrix composites, ceramic matrix composites and polymer matrix composites.