Undergraduate curriculum for students started to department in and after 2016-2017 Term Course List

Compulsory Departmental Courses

Elective Courses

Technical Elective Courses

Non-Technical Elective Courses

Service Courses Given to Other Departments

Service Courses Taken From Other Departments

Compulsory Departmental Courses

MFGE101 - Introduction to Manufacturing Engineering
Introduction, history of manufacturing engineering, manufacturing engineering education, design and manufacturing, manufacturing engineering and product life cycle, manufacturing processes and technology, case studies in manufacturing engineering, research topics and development trends in manufacturing.

MFGE108 - Computer Aided Solid Modeling
Part design and principles of surface design, drafting of part design, fundamental concepts of dimensioning and tolerances, fundamentals of assembly design and bill of materials.

MFGE121 - Introduction to Computational Tools in Manufacturing Engineering
Introduction to computers and computing systems, MATLAB® environment, basic operations, arrays, vectors and matrices, calculus with MATLAB®, fuctions, graphics, MATLAB® programming ?loops and other programming commands.

MFGE202 - Principles of Engineering Design
Auxiliary part design and surface design, assembly design and bill of materials, screw threads, threaded fasteners, keys, springs, locking devices, gears and cams, drafting, dimensioning and tolerances, introduction to linear finite elements analysis in Catia, center of gravity and moment of inertia calculations, simple solid mechanics problems.

MFGE205 - Introduction to Manufacturing Processes
Mechanical and physical properties of materials, metal casting, mechanical deformation processes (bulk and sheet forming), machining and joining operations, powder metallurgy, non traditional processes, micro and nano fabrication technologies.

MFGE303 - Metal Forming
Plasticity theory and metal forming, metalurgical considerations; cold, warm and hot forming; extrusion, forging, wire drawing and deep drawing.

MFGE307 - Metal Cutting
Machine tools and metal cutting operations, metal cutting mechanics, cutting temperatures, cutting tools: materials and geometry, tool wear and tool life, cutting fluids, economics of metal cutting operations, introduction to computer-aided manufacturing.

MFGE312 - Statistical Analysis and Instrumentation
Basic concepts, analysis of experimental data, working principles of basic electrical measurements and sensing devices.

MFGE316 - Casting and Powder Metallurgy
Fundamentals of casting, solidification of pure metals, solidification of alloys, riser and runner design, feeding distance calculations, Bernoulli equations and sprue design, mold materials, casting problems and defects.

MFGE399 - Summer Practice I
Introduction, manufacturing processes, practice.

MFGE401 - Capstone Project I
Review of engineering design concepts; phases of engineering design, feasibility study, preliminary design, and detail design; design for X; presentation tools for engineering design; types of engineering design; modeling of engineering design; case studies.

MFGE402 - Capstone Project II
Review of engineering design concepts; phases of engineering design, feasibility study, preliminary design, and detail design; design for X; presentation tools for engineering design; types of engineering design; modeling of engineering design; case studies.

MFGE499 - Summer Practice II
Introduction, Manufacturing processes, practice.

Technical Elective Courses

- Departmental Elective (A)

MFGE310 - Finite Element Analysis for Manufacturing
Direct approach, plane strain, plane stress and axisymmetric problems, principle of virtual work based formulation for 2D problems, FEM for heat transfer problems.

MFGE403 - Tool and Die Design
Introduction, definitions of jigs and fixtures, types of fixtures, design and manufacturing of jigs and fixtures, FE analysis of loading and stress analysis of jigs during processes.

MFGE404 - Computer Integrated Manufacturing
Introduction, computer aided design (CAD) systems, computer aided graphical modeling, CAD databases, computer aided manufacturing (CAM) systems, computer aided process Planning (CAPP) systems, robotic systems, group technology and cellular manufacturing systems, automated material handling systems, automated inspection systems, flexible manufacturi

MFGE405 - Rapid Prototyping
Overview of rapid prototyping and automated fabrication technologies, injection molding, rapid prototyping technologies, the underlying material science, generating CAD models suitable for automated fabrication, secondary processing.

MFGE406 - Joining Technologies
Stress analysis, static and fatigue failure criteria for joined structures. Design methods for mechanical fastening, welding and adhesive bonding; manufacturing of joints (i.e. installation of fasteners, application on adhesive on substrates); maintenance of joints (e.g. corrosion protection, inspection, etc.).

MFGE412 - Introduction to Optimization
Introduction to optimization, graphical optimization, least squares regression, linear and non-linear programming, numerical techniques, unconstrained and constrained optimization, global optimization (genetic algorithm), applications.

MFGE418 - Advanced Strength of Materials
Analysis of stress and strain, principle stresses and strains, generalized Hooke's law, strain energy, yield and failure criteria, plane strain and plane stress problems, airy stress function, unsymmetrical bending of beams and shear center, torsion of noncircular cross sections, Prandtl?s membrane analogy, energy methods, plastic deformation and r

MFGE420 - Project Management in Manufacturing Engineering
Formulating problems, modeling, selection of solution algorithm for models and computer assisted model solving and test.

MFGE426 - Manufacturing of Automobiles
Manufacturing techniques used in automobile industry, automobile parts and manufacturing methods ?cast parts, machined parts, parts produced by metal forming, sheet deformation processes, polymers and composite parts -, assembly, welded parts and welding techniques, production lines, design of automobile parts considering production.

MFGE432 - Polymer Processing
Introduction to polymer processing; the nature of plastics and rubbers; morphology and structuring of polymers; additives; surface properties; thermodynamic properties of polymers; melting and mixing; die forming, polymer extrusion, molding processes, manufacture of tires and other rubber products, composite manufacturing, pultrusion.

MFGE433 - Residual Stresses
Residual stresses, measurement techniques, sources of residual stresses, development of residual stresses based on the manufacturing method, effect of residual stresses on subsequent manufacturing processes, effect of residual stresses on service performance and failure.

MFGE434 - Introduction to Distortion Engineering
Distortion, distortion potential, distortion potential carriers, compensation potential, production step based solutions, intelligent process chain design, predictive methods, use of in-situ measurement techniques and adaptive process control.

MFGE478 - Production Plant Design
Introduction, fundamantals of design and CAD, manufacturing systems (CAD/CAM, FMS, CIM), market survey and plant location, plant layout, process analysis, quantity and quality planning and controlling for production, process and machine selection, materials handling, storage types, safety regulations, maintenance, environmental factors, research an

MFGE481 - Nanofabrication
Fabrication of metallic nanomaterials, manufacturing of carbon based nanostructures, nanostructured systems from low-dimensional building blocks, characterization techniques and manufacturing methods, proximity effect.

Service Courses Taken From Other Departments

CEAC 105 - General Chemistry
Introduction: Matter and Measurement. Atoms, Molecules and Ions. Stoichiometry: Calculations with Chemical Formulas and Equations. Oxidation-Reduction Reactions. Thermochemistry. Electronic Structure of Atoms. Periodic properties of the Elements. Basic Concepts of Chemical Bonding. Molecular Geometry and Bonding Theories. Gases. Intermolecular Forces, Liquids and Solids. Chemical Kinetics. Chemical Thermodynamics. Electrochemistry.

CMPE102 - Computer Programming
Programming concepts: data types, arithmetic expressions, assignment statements; input/output functions; library functions; selection and repetition statements; user-defined functions; arrays and strings.

EE 234 - Introduction to Electrical Engineering
Scope of electrical engineering. Basic definitions, electric circuits/machinery fundamentals. Electronic devices/circuits, diode and transistor circuits/power suppliers. Digital circuits and systems, memories and microprocessors concept. Power devices and power electronics elements, power control circuits.

ENE 203 - Thermodynamics
Basic concepts and definitions. Properties of a pure substance. Equations of state. Work and heat interactions. First law of thermodynamics. Internal energy and enthalpy. Second law of thermodynamics. Entropy. Reversible and irreversible processes. Thermodynamic analysis of processes.

ENE301 - Heat Transfer
Basic concepts of heat transfer. Mechanisms of heat transfer (conduction, convection, radiation). Steady and transient conduction. Numerical methods in heat conduction. Forced and natural convection. Boiling and condensation. Heat exchangers, radiation heat transfer.

ENG 301 - English for Career Development I
This course includes job-related communication skills. In this frame, the functions such as, describing relationships at work, discussing performance reviews and giving feedback, discussing plans and arrangements, using social media for professional communication, discussing on recruitment tests and job interviews, presenting a service or product, writing reviews on websites, writing job-related e-mails are dealt with.

ENG101 - English for Academic Purposes I
ENG101 consists of academic skills, such as reading comprehension, vocabulary building and critical analysis of texts. In this frame, listening and note-taking, class discussions, presentations, writing, research assignments and use of technology are some of the important activities.

ENG102 - English for Academic Purposes II
ENG102 elaborates on academic skills such as reading comprehension, listening, class discussions about the topic of the unit, vocabulary building and critical analysis of texts. It also includes research assignments and response paper and graph writing. Skills like listening and note-taking, analysis of written products, portfolio keeping and use of technology are elaborated in this course, as well.

ENG201 - English for Academic Purposes III
The course consists of mainly advanced reading and writing skills, applying critical reading skills and strategies, identifying the organization of a reading text, main ideas of the texts, and the author’s main purpose, summarizing a given text, outlining and writing an argumentative essay. Some parts of the input are in flipped learning mode.

ENG202 - English for Academic Purposes IV
This course includes research-based report writing skills. The content includes types of reports and models; the choice of topics, formation of thesis statements, writing paraphrases and summaries, preparation of report outlines, evaluation of print and electronic sources, in-text and end-of-text citation, report presentation in oral and written format. Flipped learning method is utilised to a great extent.

ENG302 - English For Professional Communication II
This course includes more detailed job-related communication skills. In this frame, describing and organising meetings, developing communicational styles in various cultural settings, handling mistakes and apologizing, getting familiar with marketing styles and advertising, deciding how to adapt and market a product in different countries, preparing different types of presentation (speech), discussing workplace dilemmas and rules, writing job-related e-mails are dealt with.

HIST 221 - History of Civilization
Analysis of the importance of theuse of technology in human evolution and the emergence of early civilizations; ancient societies from Ancient Egypt to Greece as the cradles of modern civilizations; some classical texts of certain key authors –Machiavelli, Hume, Descartes, Hobbes, Bacon, Locke, Rousseau, etc. As outstanding contributions to the history of enlightenment; some groundbreaking scientific texts of Copernicus, Galileo, and Newton to understand the contribution of scientific thought to the progression of civilization.

HIST111 - Principles of Ataturk and History of Turkish Revolution I
A history of the foundation of the Turkish Republic in the light of Mustafa Kemal Atatürk’s principles and basic terms, concepts and events of modern Turkey history in a period covering 16‐20th centuries in comparison with world and global history in the same period of time.

HIST112 - Principles of Ataturk and History of Turkish Revolution II
A history of the foundation of the Turkish Republic in the light of Mustafa Kemal Atatürk’s principles and basic terms, concepts and events of modern Turkey history in a period covering 16‐20th centuries in comparison with world and global history in the same period of time.

IE 305 - Engineering Economic Analysis
Economic analysis for engineering and managerial decision-making. Cash flows, effect of time and interest rate on money and physical assets. Methods of evaluating alternatives: present worth, future worth, annual worth, rate-of-return and benefit/cost ratios. Depreciation and taxes. Effects of inflation.

MATE 207 - Introduction to Materials Engineering
Historical perspective and classification of materials. Atomic structure and theory. Bonding in solids. The structure of crystalline solids. Fundamental mechanical properties of materials. Phase diagrams. Thermal processing of metal alloys. Properties and use of ceramics, glasses and composites. Material selection. Design and economical considerations.

MATH157 - Extended Calculus I
Preliminaries, Limits and Continuity, Differentiation, Applications of Derivatives, L'Hopital’s Rule, Integration, Applications of Integrals, Integrals and Transcendental Functions, Integration Techniques, and Improper Integrals, Sequences.

MATH158 - Extended Calculus II
Infinite Series, Vectors in the plane and Polar Coordinates. Vectors and Motions in Space, Multivariable Functions and Their Derivatives, Multiple Integrals: Double Integrals, Areas, Double Integrals in Polar Coordinates, Triple Integrals in Rectangular, Cylindrical and Spherical Coordinates, Line Integrals, Independence of path, Green’s Theorem.

MATH275 - Linear Algebra
Linear Equations and Matrices, Real Vector Spaces, Inner Product Spaces, Linear Transformations and Matrices, Determinants, Eigenvalues and Eigenvectors.

MATH276 - Differential Equations
First Order, Higher Order Linear Ordinary Differential Equations, Series Solutions of Differential Equations, Laplace Transforms, Linear Systems of Ordinary Differential Equations, Fourier Analysis and Partial Differential Equations.

MATH380 - Numerical Methods for Engineers
Solution of Nonlinear Equations, Solution of Linear Systems, Eigenvalues and Eigenvectors, Interpolation and Polynomial Approximation, Interpolation by Spline Functions, Least Square Approximation, Numerical Differentiation, Numerical Integration.

ME 201 - Statics
General introduction, statics of particles, statics of rigid bodies, equivalent force systems, equilibrium, analysis of trusses, analysis of beams, friction, and geometric properties of surfaces.

ME 210 - Strength of Materials
Concepts of normal and shear stress, strain. Axial load, statically indeterminate axially loaded members. Torsion, statically indeterminate torque-loaded members. Bending of beams. Combined loadings. Stress and strain transformation. Simple loading tension, torsion and bending. Deflections with simple loadings, superposition techniques. Statistically indeterminate members, thermal stresses.

ME 316 - Machine Elements
2-D and 3-D stress analysis. Static failure criteria, factor of safety. Fatigue Failure criteria, S-N curves, stress concentration. Design of shafts and detachable joints. Design of threaded fasteners and power screws. Design of rolling contact bearings. Power transmission. Design of gear drives, spur gears, helical gears. Design of belt drives. Design of springs. Clutches, Brakes, Couplings and Flywheels.

MECE 204 - Dynamics
Two main sections of dynamics; Particles and Rigid Bodies are described with respect to planar motions in this course. Each section has two parts; kinematics and kinetics. Methods of Newton’s second law, work energy and impulse-momentum are emphasized in this course.

MECE 303 - Theory of Machines
Introduction to mechanisms: basic concepts, mobility, basic types of mechanisms. Position, velocity and acceleration analysis of linkages. Cam mechanisms, gear trains. Static and dynamic force analysis of mechanisms.

PHYS 101 - General Physics I
Measurement; Motion Along a Straight Line; Vectors; Motion in Two and Three Dimensions; Force and Motion I; Force and Motion II; Kinetic Energy and Work; Potential Energy and Conservation of Energy; Center of Mass and Linear Momentum; Rotation; Rolling, Torque, and Angular Momentum; Equilibrium and Elasticity.

PHYS 102 - General Physics II
Electric Charge; Electric Fields; Gauss' Law; Electric Potential; Capacitance; Current and Resistance; Circuits; Magnetic Fields; Magnetic Field due to Currents; Induction and Inductance

TURK 401 -

TURK 402 -