ECTS - -
Compulsory Departmental Courses
MFGE101-old - Fundamentals of Engineering (1 + 0) 3
Introduction, Historical Development of Science/Engineering and Industry, Definitions and Methodologies of Engineering and Science, Functions of Engineers, Roles and Types of Engineers, Engineering, Society and Environment, Engineering and Mathematics, Safety in Engineering, Design and Applications in Engineering, Research and Technology in Engineering, Engineering Education and Communications, Engineering Ethics, Engineering and Computers, Visits to Laboratories and/or Factories
MFGE102-old - Fundamentals of Product Design and Manufacturing Engineering (1 + 0) 4.5
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
MFGE201-old - Engineering Mechanics I (2 + 2) 4
General principles of mechanics and vectors. Force vectors. Equilibrium of a particle: 2 and 3 dimensional problems. Force system resultants. Equilibrium of rigid bodies: 2 and 3 dimensional problems. Analysis of trusses and frames: Internal forces. Shear and moment diagrams. Friction. Center of gravity and moments of inertia. Virtual work principle.
MFGE202-old - Principles of Engineering Design (2 + 2) 4.5
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.
MFGE204 - Engineering Mechanics II (2 + 2) 5
General principles. Kinematics of particles. Rectilinear motion. Curvilinear motion: analysis in normal and tangential coordinates, analysis in polar coordinates. Relative motion analysis of particles. Kinetics of a particle: force, mass and acceleration; work and energy principles; impulse and momentum, impact.. Planar kinematics of a rigid body: relative motion analysis. Mass moment of inertias. Kinetics of rigid bodies: force and acceleration, energy and work, impulse and momentum.
MFGE301-old - Numerical Methods (2 + 2) 5.5
Modeling, Truncation and rounding errors. Taylor series. Roots of equations: Bracketing and Open methods. Matrices. Solutions of linear algebraic equations; Gauss elimination and decomposition methods. Special matrices and methods for matrix inversion. Solutions of nonlinear system of equations. Curve fitting; least square approximation, Interpolation. Numerical differentiation and integration.
MFGE304-old - Theory of Manufacturing Technology II (4 + 0) 5.5
Theory of casting process. Machine tools and machining operations. Mechanics of metal cutting. Temperatures in metal cutting. Tool life and tool wear. Cutting fluids and surface roughness. Economics of metal cutting. Machine tool vibrations. Solidification of metals, riser and gate design, metal fluidity, mold materials and design, mechanism of cutting processes, friction and tool wear in cutting, economics of cutting, CNC techniques.
MFGE306-old - Machine Elements (2 + 2) 7
Stress concentration, factor of safety, theories of failure for ductile and brittle materials. Fatigue design criteria under mean and combined stresses. Design of shafts. Design of permanent joints; riveted joints, welded joints. Design of detachable joints, bolted joints, power screws, keys, splines, pins, rings. Design of springs. Friction, wear and lubrication; their types, systems of lubrication. Criteria for the selection of bearing type. Design of sliding bearings; Journal and thrust bearings. Antifriction bearings; their types, selection criteria and calculation procedure. Power transmission; Prime mover characteristics and types. Design of gear drives; spur gears, helical gears, bevel gears, worm gears and special gears. Design of couplings, clutches and brakes. Design of belt drives; flat belts, V-belts. Design of chain drives and rope drives.
MFGE308-old - Automation and Instrumentation (2 + 2) 5.5
Characterizing physical systems through ordinary differential equations-time constant, natural frequency and damping ratio. Resonance, damping and vibration isolation. System concepts open and closed loop. Transfer functions and block diagrams. Dynamic modeling of automation elements including amplifier, motor and load components. Transient response and stability. Performance criteria. Methods of control system analysis, including frequency domain techniques. Measurement systems, elements and sensors; static characteristics, accuracy, signals and conditioning, flow measurement. Optical measurement. Ultrasonic measurement. Data acquisition. Drive system technology: Hydraulic, electric and pneumatic drives. Programming methods: Robots, PLCs and advanced techniques. CAD methods. Kinematics: Spatial descriptions. Manipulator kinematics and inverse manipulator kinematics. Homogenous transforms. Denavit-Hartenberg notation for the description of robot mechanisms-joint parameters, link parameters. Link transformations (A matrices). Jabobians: velocities and static forces. Transformation equations. OLP and kinematic simulation. Trajectory generation and interpolation. Kinematic control of robots and machine tools and incorporation of sensory data. Application of internal and external kinematic control and dynamic control. Actuator space, joint space and cartesian space. Dynamics: Position control and force control of manipulators. Servo drive technology. Classical control and compensation techniques. Digital and analogue control. Dynamic simulation. Control system considerations for point to point and contouring.
MFGE403-old - Tool and Die Design (2 + 2) 6
Introduction. Tools used in manufacturing. Jig and fixture design. Die design for sheet metal work. Die design for forming and extrusion. Die design for injection molding. Computer aided die design applications. Techniques used in tool manufacturing. Tool economy.
MFGE404 - Computer Integrated Manufacturing (3 + 0) 5
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
Technical Elective Courses
MFGE418 - Advanced Strength of Materials (3 + 0) 5
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
MFGE432 - Polymer Processing (3 + 0) 5
Introduction to hydrocarbons and macromolecular structures, homopolymers, copolymers, elastomers, blends and thermosets, morphology of polymers, semicrystalline and amorhous states, polymer additives, mechanical properties, differential scanning calorimetry and dilatometry, rheological properties, non Newtonian flow, viscoelasticity, melt flow index and rheometers, melting and mixing; die forming, extrusion based processes, molding processes, manufacture of tires and other rubber products.
MFGE433 - Residual Stresses (3 + 0) 5
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.
MFGE478 - Production Plant Design (3 + 0) 5
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