A complete course on Mechanical Design Engineering from Design Theory to Machine Elements Design and Design Tools
배울 내용 ; Theories of elastic failure · Stress analysis basics · Design of power screws · Frame analysis · Design of bolted connections · Fits and tolerances · Design of couplings · Design of spur, helical, and bevel gears · Design of power transmission shafts · Design of bearings and keys · Design of V-belts · Design of compression springs · Design of clutches
A project based course showcasing a framework to solve mechanical design engineering problems
Basics of Mechanical Design and Stress Analysis
배울 내용 ; Aspects of Engineering Drawing and Graphics · Concept of Orthographic Projections · Views and Types of Views · Types of Lines in Engineering Drawing · Dimensions and Types of Dimensions in Engineering Drawing · Introduction to CAD (Computer Aided Designing) · Features of CAD · Understand Solid Surface and Parametric Modelling · Sample CAD modelling using Creo Parametric Software
Vibration analysis helps Mechanical Design Engineers in detecting the areas which can fail due to vibration being set up in the components to such an extent that can either render the whole operati...
The Mechanical Engineering Design with Management MSc aims to develop your academic knowledge and technical engineering skills with the integration of creative, problem-solving design elements with...
배울 내용 ; What is the product development process? ; Various facets of Idea generation for a new product ; Identifying an opportunity for product development
Sungkyunkwan University ( SKKU ) College of Engineering | Academic Programs | Schools / Departments | Mechanical Engineering | Course & Curriculum
Course No, Course Name, Tutorial, Credits in new system ; ME5201, Computational Methods in Engineering, 1, 10 ; ME5203, Advanced Mechanics of Solids, 0, 9 ; ME5205, Theory of Vibration, 0, 9 ; ME5207, Design with Advanced Engineering Materials, 0, 9 ; , Professional Elective I, 0, 9 ; ME5281, Mechanical Design Laboratory, 0, 3 ; ME5204, Finite Element Analysis, 0, 9 ; ME5280, Design Practice with CAD Tools, 0, 6 ; , Professional Elective II, 0, 9 ; , Professional Elective III, 0, 9 ; , Professional Elective IV, 0, 9 ; , Professional Free Elective, 0, 9 ; ME6490*, Project Phase I, 0, 20 ; ME6490*, Project Phase II, 0, 35 ; ME6490, Project Phase III, 0, 40 ; CT7000, Composite Materials Science, 0, 9 ; CT7120, Modeling and Equipment Des for Comp Proc, 0, 9 ; ID5020, Multi-body Dynamics and Applications, 0, 9 ; ID6010, Constitutive Modeling in Continuum Mechanics, 0, 9 ; ID7010, Advanced Finite Element Analysis, 0, 9 ; ME6750, Gear Design, 0, 9 ; ME6760, Design of Mechanical Transmission Elements, 0, 9 ; ME6770, Design of Pressure vessels and Piping, 0, 9 ; ME6780, Design Synthesis, 0, 9 ; ME6810, Transmission Mechanisms and Manipulators, 0, 9 ; ME6840, Design for Manufacture and Assembly, 0, 9 ; ME6850, Product Reliability, 0, 9 ; ME6870, CAD/CAM for product design, 0, 9 ; ME7020, Robotics and Robot applications, 0, 9 ; ME7120, Sensors for Intelligent Manufacturing and Condition Monitoring, 0, 9 ; ME7300, Friction and Wear in Machinery, 0, 9 ; ME7400, Mechatronic Systems, 0, 9 ; ME7430, Oil Hydraulics and Pneumatic Systems, 0, 9 ; ME7470, Industrial Instrumentation, 0, 9 ; ME7500, Measurement Systems, 0, 9 ; ME7640, Tribo Design and Analysis, 0, 9 ; ME7660, Nonlinear Solid Mechanics, 0, 9 ; ME7680, Optimization Methods for Mechanical Design, 0, 9 ; ME7710, Advanced Vibration and Acoustics, 0, 9 ; ME7740, Structural Health and Integrity Monitoring, 0, 9 ; ME7820, Rotor Dynamics, 0, 9 ; ME7830, Random Vibrations, 0, 9 ; ME7840, Signal Processing in Mechanical systems, 0, 9 ; ME7850, Modal Analysis of Mechanical systems, 0, 9 ; ME7860, Tribo-Instrumentation, 0, 9 ; ME7870, Diagnostic Maintenance, 0, 9 ; ME7880, Vehicular Vibration, 0, 9 ; ME7890, Advanced Applied Finite Element, 0, 9 ; ME7910, Acoustics and Noise Control, 0, 9 ; ME7920, Applied Finite Element, 0, 9 ; ME7930, Chaotic Vibrations, 0, 9 ; ME 7190, Introduction to Fracture Mechanics, 0, 9 ; ME6012, Mechanics of Human Movement, 0, 9 ; ME6710, Theory of Mechanisms, 0, 9 ; ME6720, Failure Analysis and Design, 0, 9 ; ME6016, Mechanics of Thin Films for Microsystem Design, 0, 9 ; ME6003, Variational Principles in Mechanics, 0, 9 ; ME6820, Fundamentals of Engineering Design, 0, 9 ; ME6015, Elastic waves and ultrasonics, 0, 9 ; ID6070, Mechanics of Viscoelastic materials, 0, 9 ; ME8001, Mechanics of Mixtures, 0, 9 ; ME7023, Foundations of computational materials modelling, 0, 9 ; ME6830, Principles of Product Design, 0, 9