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| ana sayfa> programlar > lisans > ders kataloğu |
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lisans ders kataloğu ME 120 Introduction to Mechanical Engineering (3+0+0) 3 Introductory concepts in mechanical engineering. Fundamentals of engineering design and methodology. Standards. Fundamentals of modern production technology. Introduction to computer aided engineering design and manufacturing. ME 207 Probability and Statistics for Mechanical Engineers(3+0+0) 3 Olasılık ve istatistiğin temel kavramları; rasgele değişkenler; matematiksel beklentiler; olasılık dağılımları; örnekleme kuramı; kestirim yöntemleri; hipotez sınaması; bağlanım ve ilinti çözümlemesi; varyans çözümlemesi; Makina mühendisliği uygulamaları. Önkoşul: MATH 102 ME 209 Fundamentals Object Oriented Programming(4+0+0) 4 Overviw of Microsoft .NET Program. Using Value-Type Variables. Methods and Parameters. Essentials of Object-Oriented Programming. Using Reference-Type Variables. Creating and Destroying Objects. Inheritance in C#. Aggregation, Namespaces, and Advanced Scope. Operators and Events. Properties and Indexers. Attributes. MSSQL and ADO.NET. ASP.NET. Prerequisites: CMPE 150. ME 210 Materials Science (3+0+0) 3 Materials and properties. Atomic bonding and arrangements. Structural imperfections. Atom movements. Deformation of materials. Physical properties. Industrial alloys. Modification of properties of materials through changes in structure. Nonmetallic materials. Prerequisites: PHYS 130, CHEM 105. ME 212 Materials Science (3+0+2) 4 Materials and properties. Atomic bonding and arrangement. Structural imperfections. Atom movements. Elastic, plastic and viscoelastic deformation of materials. Equilibrium diagrams. Metals and their properties. Modification of properties of materials through changes in structure. Organic materials and their properties. Laboratory Prerequisites: PHYS 130, CHEM 105 . ME 241 Statics (3+1+0) 3 Vektör cebiri. Kuvvetler ve momentler. Şekil değiştirmeyen cisimlerde eşdeğer kuvvet sistemleri. Serbest cisim diyagramı. Denge. Yayılı kuvvetler. Yapısal mekaniğe giriş. Yapısal elemanlarda iç kuvvetler. Sürtünme. Sanal iş ilkesi. Önkoşullar: PHYS 101, MATH 102 ME 242 Dynamics (3+0+0) 3 Dynamics of particles: Rectilinear and curvilinear motion. Newton's laws, momentum and angular momentum methods. Work and energy. Systems of particles. Dynamics of rigid bodies; kinematics, Euler's Laws, angular momentum. Work and energy methods for rigid bodies. Introduction to mechanical vibrations. Prerequisites: CE 243 ME 263 Thermodynamics I (4+0+0) 4 The thermodynamic system and properties, thermodynamic processes; work and heat interactions. The First Law for systems and for flow processes; the Second Law and entropy. Irreversibility and availability. Prerequisites:PHYS 130, MATH 102. ME 301 Experimental Engineering I (1+0+4) 3 Principles and methods of experimentation. Experiment planning, data
analysis, report writing, basic sensing devices, and fundamental engineering
measurements. Performing and reporting a series of experiments chosen to
illustrate a variety of important experimental methods, while familiarizing
with basic instrumentation. ME 302 Experimental Engineering II (1+0+4) 3 Generalized and detailed uncertainty analysis, uncertainty analysis of sample-to-sample and timewise experiments; basic concepts of signal analysis, measurement system modeling: analysis of zeroth, first and second order systems. Planning, performing and reporting of experiments in the fields of solid mechanics and thermal sciences. Prerequisites: ME 301, ME 345, ME 353 ME 303 Computer Applications in Mechanical Engineering (3+1+0)
3 Error analysis; numerical solution of nonlinear equations and and systems of equations; interpolation; curve fitting; numerical integration; numerical optimization; numerical solution of ordinary and partial differential equations. Algorithm development. Programming and numerical experimentation on examples selected from Mechanical Engineering applications. Prerequisites: CmpE 150, MATH 202. ME 316 Physical Metallurgy (3+0+0) 3 Description of crystals; structure determination. Thermodynamics of crystals; vacancies; diffusion; interfaces; annealing; recovery, recrystallization, grain growth, precipitation from solid solutions. Phase transformations; nucleation and growth. Prerequisite: ME 212. ME 318 Manufacturing Techniques (3+0+2) 4 Principles of metal casting; bulk deformation processes: forging, extrusion, drawing, rolling; sheet-metal working processes. Particulate processing. Polymer processing. Machining. Prerequisite: ME 212. ME 324 Machine Design I (4+0+0) 4 Introduction to mechanical engineering design: Load analysis; materials; stress analysis, stress concentrations; deflections and stability; failure theories of ductile and brittle materials, reliability; dimensions and tolerances; impact, fatigue and surface damage. Analysis and design of shafts, keys, pins, splines, couplings, and flywheels. Lubrication, sliding bearings. Rolling-element bearings. Prerequisite: ME 345, ENGG 110 ME 335 Modeling and Control of Dynamic Systems (4+0+0) 4 Introduction to automatic control. Modeling of dynamic systems. Response analysis using Laplace Transform Method. Transfer functions and block diagrams. Feedback control systems. Typical actuators and transducers. Control Laws. Tuning methods of PID control. Root-Locus analysis. Frequency response analysis. Prerequisite: ME 242, MATH 202. ME 345 Mechanics of Materials (4+0+0) 4 Stress and strain. Selected topics in torsion. Simple bending of beams, shearing stresses in beams; beam deflections. Combined stresses due to bending, torsion, shear and axial load. Mohr circle. Design of beams and shafts for strength. Statically indeterminate problems. Introduction to energy methods. Buckling of columns. Prerequisite: CE 243 ME 353 Fluid Mechanics (4+0+0) 4 Fundamental principles of fluid mechanics and their application to engineering problems. Fluid statics. Fluid flow concepts.Control-volume analysis.Conservation equations and applications. Dimensional analysis and similitude. Flow of viscous fluids, simple laminar flow systems, turbulence, internal and external flow applications. Prerequisites: MATH 202, ME 242. ME 362 Heat Transfer (4+0+0) 4 Steady and transient one and multi-dimensional heat conduction in systems; numerical methods and special applications. Internal and external forced convection, natural convection and condensation. Heat transfer by radiation. Heat transfer by radiation. Heat exchangers and design of heat transfer systems. Prerequisites: ME 263, ME 353. ME 411 Materials Engineering (3+0+0) 3 Engineering materials and their properties. Materials selection and development. Advanced materials. Design with materials. Prerequisite: ME 212. ME 415 Mechanical Metallurgy (3+0+0) 3 Elastic properties of metals. Plastic deformation of single and polycrystals. Strengthening mechanisms. Fracture, fatigue. High temperature deformation, creep. Tension test, hardness test, impact testing. Prerequisite: ME 212. ME 420 Nonmetallic Materials (3+0+0) 3 Structure and properties of polymeric, ceramic and composite materials. Sintered products, reinforced materials, and their mechanical behavior. mechanical behavior. Statistical treatment of brittle solids. Applications and selection of new materials of modern technology. ME 422 Tribology (3+0+0) 3 Friction between sliding metal surfaces. Frictional behavior of polymers. Rolling friction mechanisms of wear. Adhesive, abrasive, corrosive wear, surface fatigue, erosion. Principles of fluid film and boundary lubricator. Analysis and design of ball, journal, hydrostatics, gas bearings. Properties of bearing materials and lubricants. Prerequisites: ME 353, ME 423. ME 424 Machine Design II (4+0+0) 4 Analysis and design of machine elements such as power screws and threaded fasteners; joining components such as rivets and welds; springs; various types of gears such as spur, helical, bevel, and worm; clutches, brakes, belts and chains. Prerequisites: ME 324 ME 425 Mechanical Vibrations (3+0+0) 3 Free and forced vibrations of linear one degree of freedom systems. Systems with two or more degrees of freedom. Modal analysis. Design for vibration suppression and control. Vibration measurement. Critical speeds. Prerequisites: MATH 202, ME 242. ME 426 Dynamics of Machinery (3+0+0) 3 Graphical analysis of mechanisms; analytical methods using complex polar representation. Synthesis of cams. Kinematics of gears, involute, cycloidal properties, interference. Gear trains. Static and inertia force analysis of mechanisms; balancing rotating and reciprocating masses. Prerequisite: ME 242. ME 428 Plasticity and Metal Forming (3+0+0) 3 The theory of plasticity and solutions of metal forming problems by elementary methods of analysis. Manufacturing of thin walled containers through cup drawing; ironing of complex shapes through forming, rolling and extrusion. Slip-line solutions, typical applications. Plastic instability, friction. Prerequisites: ME 318, ME 345. ME 429 Mechanical and Thermal Design (1+0+6) 4 ME 430 Automotive Engineering (3+0+0) 3 ME 435 Mechatronics (3+0+0) 3 Introduction to mechatronics. Microcomputer based control systems. Interfaces, sensors and actuators. Basic control electronics. Discrete time systems. Design of discrete controllers. Real time programming for control. Design case studies. Project. Prerequisite. ME 335. ME 438 Fluid Power Control (3+0+0) 3 Hydraulic and Pneumatic Power Transmission Systems. Losses and system efficiency. Basic circuit design. Pumps, motors, accumulators. Valve characteristics. Dynamic response. Hydraulic servo control. Prerequisite: ME 335. ME 446 Applied Solid Mechanics (3+0+0) 3 Introduction to theory of elasticity; stress, strain, constitutive equations. Topics from advanced strength of materials: bending of unsymmetric cross-sections, curved beams, shear center, thick-walled cylinder. Mechanics of composite materials. Introduction to lamination theory. Application to engineering problems. Prerequisites: ME 345. ME 447 Introduction to Continuum Mechanics (3+0+0) 3 Kinematics: Motion, displacement, velocity, acceleration; material and local time derivatives; changes of volume during the motion; measures of deformation, finite and infinitesimal strains, rotation, rate of deformation, compatibility equations for strains; illustration of the above concepts by commonly encountered motions. Conservation of mass and energy and principles of momentum. Linear elastic solid. Newtonian viscous fluid. Prerequisites: ME 345, ME 353. ME 451 Applied Fluid Mechanics (3+0+0) 3 Basic theory of turbomachinery; dimensionless parameters and similarity laws; impulse and reaction turbines; centrifugal pump; performance characteristics. Fundamentals of aerodynamics; airfoil geometry; generation of circulation; conformal transformation; lift and drag characteristics of airfoils. Application to engineering problems. Prerequisite: ME 353. ME 453 Gas Dynamics (3+0+0) 3 Basic equations of compressible flow; stagnation and sonic properties; normal shock relations; oblique shock and expansion waves; unsteady wave equation; linearized flow; conical flow; numerical techniques for supersonic flow, method of characteristics; transonic flow; hypersonic flow. Prerequisite: ME 263, ME 353. ME 455 Fluid Mechanics II (3+0+0) 3 Basic theory of turbomachinery; dimensionless parameters and similarity laws; performance characteristics of turbomachines. Fundamentals of aerodynamics; airfoil geometry; lift and drag characteristics of airfoils. Fundamentals of compressible flow; normal shock relatian; oblique shock and expansion waves; numerical techniques for supersonic flow. Prerequisites: ME 353. ME 466 Thermodynamics II (3+0+0) 3 Property relations. Power and refrigeration cycIes. Thennodynamics of mixtures and sollitiolis; psychrometric applications; chemical reactions; compressible flows. The concert of equilibrium; exergy analysis. Prerequisite: ME 263, ME 303. ME 474 Heat Engines (3+0+0) 3 Fundamentals of spark-ignition and compression-ignition engines. Performance characteristics and testing. Fundamentals of theory and design of steam and gas turbines, turbine flow passages and nozzles. Turbine control and performance. Prerequisite: ME 366. ME 475 Thermal Environmental Engineering (3+0+0) 3 Application of the fundamentals of heat transfer, thermodynamics and fluid mechanics to the analysis and design of systems for providing controlled environments for living and industrial processes. Related special topics. Prerequisites: ME 362, ME 366. ME 478 Design of Thermal Systems (3+0+0) 3 Applications of principles of thermodynamics, fluid mechanics and heat transfer to design of components and thermal systems. Study of component characteristics and their effect on overall system performance. Prerequisites: ME 362, ME 366. ME 480-489 Special Topics in Mechanical Engineering (3+0+0) 3 Special topics of current interest in Mechanical Engineering and Technology. ME 490, ME 493-499 Special Studies (3+0+0) 3 Special topics in mechanical engineering selected to suit the individual interests of the students. The course is designed to give the students an opportunity to do independant work at an advanced level. ME 491 Special Projects (0+0+8) 4 Individual project design or research. Students with special interests and qualifications may be permitted to take this course. ME 492 Project (0+0+8) 4 Listed under Engineering Core Courses. Prerequisites: ME 429. |
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