1 |
Entire |
Entire |
Theories of Engineering Education |
EDU9009 |
3.0
Theories of Engineering Education
Entire
Entire
To improve the core competencies required for industrial teachers, this course is designed to cover basic theories and knowledge in general engineering education and to enhance prospective teachers’ instructional abilities through teaching practice and discussion.
|
2 |
Entire |
Entire |
Research of Engineering Teaching Materials & Teaching Method |
EDU9010 |
3.0
Research of Engineering Teaching Materials & Teaching Method
Entire
Entire
As one of the basic subjects for Engineering Education, this course introduces various teaching methods, plans for teaching and evaluations.
|
3 |
Entire |
Entire |
Teaching of Logics & Writing in Engineering |
EDU9011 |
2.0
Teaching of Logics & Writing in Engineering
Entire
Entire
As one of the basic subjects for Engineering Education, this course introduces various teaching methods, plans for teaching and evaluations.
|
4 |
Entire |
Entire |
Internship 1 |
MAE4081 |
2.0
Internship 1
Entire
Entire
Students who find the job before the graduation practice the real work in the company based on the cooperation between the school and the company.
|
5 |
Entire |
Entire |
Internship 2 |
MAE4082 |
3.0
Internship 2
Entire
Entire
Students who find the job before the graduation practice the real work in the company based on the cooperation between the school and the company.
|
6 |
1 |
1 |
Mathematics 1 |
CLT0082 |
3.0
Mathematics 1
1
1
It help them study their master that we give a lecture on Mathematics1&2 for the first year Students of Department of Science & Electronic. The main contents is Integral of One Variable and Several Variable Function, Power Series and application, Vector and Matrix, etc.
|
7 |
1 |
1 |
General Chemistry 1 |
CLT0084 |
3.0
General Chemistry 1
1
1
The lecture legibly learns a fundamental principle, theory & application of chemistry as basic science for students major in natural science which needs as anticipated subject for organic, analytic, inorganic chemistry, etc.
|
8 |
1 |
1 |
General Physics 1 |
CLT0095 |
3.0
General Physics 1
1
1
This course deals with several concepts regarding fundamental physical quantities, kinetic theory, Newton's laws of motion, and the relation between work and energy conservation. And it also covers analysis of rotational motion based on concept of vector quantities such as
angular momentum and torque.
|
9 |
1 |
1 |
Basic Physics Experiments 1 |
CLT0510 |
1.0
Basic Physics Experiments 1
1
1
The basic theory of physics is verified through experiments. The main themes of experiments include equilibrium of force, uniform circular motion, space motion of rigid body, simple harmonic motion, conservation of momentum, physical pendulum, moment of inertia, Young's modulus of bar, etc.
|
10 |
1 |
1 |
Career Plan and Self Understanding |
CLT0771 |
2.0
Career Plan and Self Understanding
1
1
This course is desinged to help students adjust to campus life and improve self- understanding. Students will be able to design their career path systematically. This course includes capmus life, self -exploration, workplace visits, interviews, career goal setting, career design.
|
11 |
1 |
1 |
Writing for Self-reflection and communication |
CLT0888 |
3.0
Writing for Self-reflection and communication
1
1
<Writing for (Self-)reflection and communication> aims to develop the Writing Skills for many kinds of writing exercises. This course focusing on expression and communication. Through this, 'critical thinking ability, rational communication ability, creative problem solving ability' can be raised.
|
12 |
1 |
1 |
Mechanical drawing |
MAE9019 |
3.0
Mechanical drawing
1
1
Mechanical drawing is essential for communicating ideas in manufacturing process. Many of the symbols and principles of technical drawing are codified in an international standard called ISO. In this course, We will study orthographic projection, dimensioning, sectioning, exploded and auxiliary views and tolerance using commercial software CATIA.
|
13 |
1 |
2 |
Mathematics 2 |
CLT0083 |
3.0
Mathematics 2
1
2
It help them study their master that we give a lecture on Mathematics1&2 for the first year Students of Department of Science & Electronic. The main contents is Integral of One Variable and Several Variable Function, Power Series and application, Vector and Matrix, etc.
|
14 |
1 |
2 |
Chemistry Laboratory 1 |
CLT0089 |
1.0
Chemistry Laboratory 1
1
2
The course make it possible for students to learn the living knowledge which is through experiment combined with general chemistry lecture. And it includes method of experiment report, operating of instrument, cautions at lab and basics of chemical experiment.
|
15 |
1 |
2 |
General Physics 2 |
CLT0096 |
3.0
General Physics 2
1
2
This course deals with concept of electric field to understand electromagnetic force, another force in nature,and provide further practice in Gauss law of problem solving. And it covers electric current, electric potential,dielectric, capacitor, electric resistance,base of magnetic field with studying relation of D.C. current and magnetic field. Therefore, deals with Faraday's law,Inductance,alternating current.
|
16 |
1 |
2 |
Basic Physics Experiments 2 |
CLT0511 |
1.0
Basic Physics Experiments 2
1
2
The main themes of this course include density measurement of solids, mechanical equivalent of heat, thermal expansion, Ohm's Law, Wheatstone bridge, etc.
|
17 |
1 |
2 |
C Programming |
CLT0672 |
3.0
C Programming
1
2
Application of C programming is a subject to create programs capable of obtaining the solutions of various engineering and mathematical problems using C language.
|
18 |
1 |
2 |
Introduction to Engineering Design |
ENV1005 |
3.0
Introduction to Engineering Design
1
2
This course aims at achieving a creative industrial design ability. To accomplish that, it makes students study the basic concept of the creative design and experience the design processes by themselves. Also, this course deals with how to cultivate a creative thinking, how to give an effective presentation and enhance an ability of communication, and how members of a team can effectively cooperate. By studying this course, students will be able to develop the ability of the creative design and problem solving.
|
19 |
1 |
2 |
Statics |
MAE9015 |
3.0
Statics
1
2
Various kinds, property and static equilibrium of force are described and the method of analysis for static structures (truss, frame, etc) is presented. Through the well understanding of statics, student will proceed four major subjects in mechanical engineering successfully.
|
20 |
2 |
1 |
Thermodynamics |
ACH3006 |
3.0
Thermodynamics
2
1
Thermodynamics introduces fundamental concepts of energy(heat and power) and energy conversion. Presents property relationships of simple pure substances and ideal gases. Applies the first and second laws of thermodynamics to the analyses of processes for closed and open systems. Also covers thermodynamic cycles.
|
21 |
2 |
1 |
Engineering Mathematics 1 |
ENG1003 |
3.0
Engineering Mathematics 1
2
1
This course provided basic linear algebra which is fundamental to an engineer. Linear equations, least square method, determinant, eigenvalue analysis are included in the course.
|
22 |
2 |
1 |
Kinematics of Mechanisms |
MAE2007 |
3.0
Kinematics of Mechanisms
2
1
In the mechanism design, the students can build an understanding of the principle of open-end design problems dealing with linkages and machinery. Also, student’s ability to perform kinematic and dynamic
analyses of planar mechanisms and machines can be enhanced.
|
23 |
2 |
1 |
Mechanical Materials |
MAE2009 |
3.0
Mechanical Materials
2
1
As a continuous course of Mechanics of Materials 1, deflection of a statically determinate and statically indeterminate beam, three dimensional stress and coordinate transformation, characteristic stress-strain relation, combinational stress state are described in
sequence. Finally, some instability problems such as buckling of beam is described.
|
24 |
2 |
1 |
Introduction of Electricity and Electronics |
MAE3019 |
3.0
Introduction of Electricity and Electronics
2
1
Introduction of Electricity and Electronics provides
undergraduate students with both a basic and practical
understanding of electricity and electronics.
The emphasis is on applications rather than theory.
The aim of this class is to familiarize second year
undergraduate students with the electronic and
electromechanical systems. Topics covered in the subject
include:
- DC and AC circuits
- Diode, transistor, operational amplifier
- Analog and digital electronics
- Microelectronics and Micro electro mechanical systems
|
25 |
2 |
1 |
Renewable Energy |
MAE4074 |
3.0
Renewable Energy
2
1
Renewable Energy provides an introduction to conventional energy systems and renewable energy resources. The class will explore society’s present needs, future energy demands, and alternative energy systems.
|
26 |
2 |
1 |
Solid mechanics |
MAE9017 |
3.0
Solid mechanics
2
1
Based on Solid Mechanics, deformation and stress occurring in machine components and structures due to external loading are described. First, concept of stress and deformation is introduced. Then, the stress and deformation which occurs in slender members due to axial, twisting, and bending load are derived in sequence.
|
27 |
2 |
2 |
Fluid Mechanics |
ACH2006 |
3.0
Fluid Mechanics
2
2
This lecture provides understanding of fundamental physical aspects of fluids either in motion or at rest. The covered subjects are as follows.
- concept of a fluid, flow analysis technique, hydrostatic pressure distribution, basic physical laws of fluid mechanics, Reynolds transport theorem, energy equation, Bernoulli equation, linear momentum, angular momentum.
|
28 |
2 |
2 |
Engineering Mathematics 2 |
ENG2004 |
3.0
Engineering Mathematics 2
2
2
This course privides mathematics required to understand engineering and solve relevant issues. It includes vector space, vector differential & integral calculus, orthogonal functions, Fourier transform, Laplace transform, functions of complex variables and etc.
|
29 |
2 |
2 |
Manufacturing Processes with Practice |
MAE2011 |
3.0
Manufacturing Processes with Practice
2
2
In this lecture, we study casting, bulk metal forming, sheet metal forming, cutting, grinding, and welding process. we treat polymer processing, powder metallurgy and special metal remove process like ECM, EDM, water jet machine etc. Moreover automation of manufacturing, CIM will be introduce.
|
30 |
2 |
2 |
Dynamics |
MAE2012 |
3.0
Dynamics
2
2
Basic fundamentals of particle and rigid body dynamics; plane kinematics, plane kinetics-Newton's second law, work and energy principles, and impulse and momentum methods, introduction to three-dimensional dynamics.
|
31 |
2 |
2 |
Applied Thermodynamics |
MAE2015 |
3.0
Applied Thermodynamics
2
2
Thermodynamics introduces fundamental concepts of entropy, exergy, reversible work and exergy destruction. Develops the second-law relations and thermodynamic relations. Applies the first and second laws of thermodynamics to the analyses of power cycles, refrigeration cycles, gas-vapor mixtures, chemical reactions and high-speed gas flows.
|
32 |
2 |
2 |
Applied Solid Mechanics |
MAE2016 |
3.0
Applied Solid Mechanics
2
2
As a continuous course of Mechanics of Materials, deflection of a statically determinate and statically indeterminate beam, three dimensional stress and coordinate transformation, characteristic stress-strain relation, combinational stress state are described in sequence. Finally, some instability problems such as buckling of beam is described.
|
33 |
2 |
2 |
Introduction to Automotive Engineering |
MAE2018 |
3.0
Introduction to Automotive Engineering
2
2
Automobile, one of a few indispensible appliances in modern life, is a highly integrated system of various technologies when viewed from an engineering viewpoint. The objectives of this subject are to introduce overall structure of the automobile to sophomores in mechanical engineering, electrical engineering, and electronics and computer engineering, and to help them recognize how the various technologies are fused in the system.
|
34 |
2 |
2 |
Numerical Analysis |
MTH3006 |
3.0
Numerical Analysis
2
2
This course gives students an introduction on concepts of numerical analysis consisting of basic mathematics, interpolation methods, numerical methods of linear & non-linear equation, matrix, arithmetic with eigen value and vector, numerical differential and integral calculus and error analysis. And then, it includes relevant computer programming.
|
35 |
3 |
1 |
Measurement Engineering |
ENG3001 |
3.0
Measurement Engineering
3
1
This lecture provides a fundamental background in the
theory of engineering measurements and measurement
system performance and the fundamental principles and
prevailing engineering practice for the measurement of
physical variables most important to mechanical
engineering applications. The covered subjects are as
follows.
- Basic concepts of measurement methods
- Static and dynamic characteristics of signals
- Measurement system behavior
- Probability and statistics
- Uncertainty analysis
- Analog electrical devices and measurements
- Sampling, digital devices, and data acquisition
- Temperature measurements
- Pressure and velocity measurements
- Flow measurements
- Strain measurements
- Metrology, motion, force, and power measurements
|
36 |
3 |
1 |
Fuel and Combustion Engineering |
ENV2009 |
3.0
Fuel and Combustion Engineering
3
1
Combustion engineering treats physical and chemical
phenomena with a fuel property, thermodynamic relation
of combustion, a heat and mass transfer and a chemical
reaction. The lecture introduces the phenomena of gas
fuels with laminar and turbulence flow combustion, of
liquid fuels with laminar and turbulence flow combustion.
It introduces on the basic phenomenon and application
examples about solid fuel.
This lecture also introduces the basic theory of
combustion engineering that reflects about the combustion
control and combustion emissions of the internal
combustion engine or combustion devices.
|
37 |
3 |
1 |
CAD/CAM with Practice |
IDE4003 |
3.0
CAD/CAM with Practice
3
1
Modeling, visualization, and graphical communications of
mechanical engineering projects. Computer-aided drafting,
modeling, and rendering techniques. The capabilities and
applications of leading mechanical design tools such as
AutoCAD in training sessions. Assignments apply these
tools to build CAD models of familiar mechanic projects.
|
38 |
3 |
1 |
Introduction To Automobile |
MAE1001 |
3.0
Introduction To Automobile
3
1
Definition and history of automobile are explained, and it studies about basic construction and principle of the major components of automobile
such as engine, power train, steering system, braking system and electrical system. Theory and principle of each component and part of
automobile are explained in lecture room, and students are induced to understand about the construction of each part of the automobile by practice for two hours per each week in practice room. Engine and electric system are explained in the first half of the semester, and automotive drive train, chassis and air conditioning system are learned in the second half of the semester.
|
39 |
3 |
1 |
Elementary Mechanical Engineering Lab |
MAE2006 |
2.0
Elementary Mechanical Engineering Lab
3
1
In this program, we have practice in lab. the experiment items are devide 4 group as follows.
(1) hydro-pressure test, visualization of fluid flow, flow rate test
(2) thermocouple test, efficiency of heat pump test, Bomb calorimeter test
(3) measuring instrument, TTL logic, 7 segment
(4) tension test, torsion test, bending test
|
40 |
3 |
1 |
Design Of Machine Elements 1 |
MAE3006 |
3.0
Design Of Machine Elements 1
3
1
For the successful design of machine, the theory and application of the fundamentals of machine elements is provided. It involves the geometry and the function of various machine elements, then covers the design standards based on the mechanics approach and the design criteria.
|
41 |
3 |
1 |
Applied Fluid Mechanics |
MAE3027 |
3.0
Applied Fluid Mechanics
3
1
This lecture provides understanding of fundamental physical aspects of fluids either in motion or at rest. The covered subjects are as follows.
- Viscous flow in ducts, boundary layer equation, Potential flow and computational fluid dynamics, Compressible flow, Open-Channel flow.
|
42 |
3 |
1 |
Heat Transfer |
MAE3033 |
3.0
Heat Transfer
3
1
Among the three modes of heat transfer, conduction and radiation are mainly focused in this course. Fundamental theory, mathematical modelling, and the method computational analysis for each mode of heat transfer are considered. Application of heat transfer to fins is also introduced.
|
43 |
3 |
1 |
System Dynamics and Signal Processing |
MAE9018 |
3.0
System Dynamics and Signal Processing
3
1
This course covers dynamic system modeling and analysis method for mechanical, electrical, electromechanical, and interconnected system on time and frequency domain. Also, signal processing for both discrete time and continuous time system will be lectured.
|
44 |
3 |
1 |
Creative Engineering Design |
MAE9023 |
3.0
Creative Engineering Design
3
1
This course provides students with the opportunity to apply the basic Mechanical engineering courses by approaching the actual design tasks in engineering. Students will learn how to reflect realistic constraints such as sponsor, user needs, an analysis of the competition or of present methods in engineering design process. Students learn basic engineering design method and develop creative design ability by freely applying principles of mechanics.
|
45 |
3 |
1 |
Mechanical Vibrations |
MSE9025 |
3.0
Mechanical Vibrations
3
1
Fundamentals of vibrations including mathematical modeling of vibration elements, one and two degrees of freedom linear systems, dynamic characteristic analysis with deterministic excitations, natural frequency, stability, vibration isolation. Modeling of multi-degree of freedom systems, modal analysis and forced vibrations.
|
46 |
3 |
2 |
Introduction to Statistics and Practice |
CLT0106 |
3.0
Introduction to Statistics and Practice
3
2
Today statistics and statistical methods are needed and applied in many areas like medicine, biology and natural sciences, economics, sociology, and engineering.The basic theories (without tears) of statistics and its applications will be emphathized in this course.
|
47 |
3 |
2 |
Control Engineering |
ECE3036 |
3.0
Control Engineering
3
2
The design methods of controllers are used to solve application problems after learning the control engineering course. Problem objectives, design methods of controllers, software tools, components of the systems and practical conditions are considered.
|
48 |
3 |
2 |
Applied Mechanical Engineering Lab |
MAE3002 |
2.0
Applied Mechanical Engineering Lab
3
2
As a continuous course of Elementary Mechanical Engineering Lab, several advanced topics which are essential to a mechanical engineer are tested. Three experiments in each of four main areas of mechanical
engineering, that is, solid mechanics, dynamics and control, thermodynamics, fluid mechanics are included.
|
49 |
3 |
2 |
Internal Combustion Engine |
MAE3003 |
3.0
Internal Combustion Engine
3
2
The course will cover the basic operating principles,
structural configurations, and the exhaust emissions of
the internal combustion engines that are widely utilized
on various machines. The contents include the ideal
cycles, gas exchange processes, mixture preparation,
in-cylinder mixture motions, combustion, and the problems
of exhaust emissions with the counter-measures that are
currently employed on automobiles. Efforts will be made
to form a basic understanding with which the students can
either practice in the relevant industries, or pursue
further studies after the graduation.
|
50 |
3 |
2 |
Mechatronics Application |
MAE3016 |
3.0
Mechatronics Application
3
2
To design intelligent mechanical systems, the compulsory subjects of electronics/electrics are required for the mechanical engineering students. The course work encompasses basic electronics and mechatronics related topics ranging electronics component, circuit analysis, diodes, transistors, OP amps, digital circuits and microcontrollers. The topic also includes system basic measurement theory and sensors as well as actuators.
Depending on the lecturers and equipment facilities, some basic experiments are included during the course works.
|
51 |
3 |
2 |
Mechanical Engineering Capstone Design 1 |
MAE3031 |
3.0
Mechanical Engineering Capstone Design 1
3
2
In the mechanical engineering Capstone Design 1 deal, the approach to solve the engineering problems using experiments, theory and numerical methods based on the mechanical engineering is pursued. Through this course, the students can experience the importance of the teamwork, improve the ability to solve the engineering problems, and naturally approach the practical project using the experimental and theoretical knowledge.
|
52 |
3 |
2 |
Applied Heat Transfer |
MAE3035 |
3.0
Applied Heat Transfer
3
2
Among the three modes of heat transfer, convection heat transfer is mainly focused in this course. Fundamental theory, mathematical modelling, and the method computational analysis for convection heat transfer are considered. Applications to engineering such as boiling, condensation systems and heat exchangers are introduced.
|
53 |
3 |
2 |
Intelligent Vehicle |
MAE3036 |
3.0
Intelligent Vehicle
3
2
This course deals with the prospect and expected development of future intelligent vehicle technology in the ICT convergence techniques and covers an overview of the related convergence techniques. It also covers the whole convergence technologies, for future intelligent vehicle industry, such as vision technique for advanced driver assistance system ('ADAS'), sensor integration, driving safety, interfaces from a design perspective and etc.
|
54 |
3 |
2 |
Design of Machine Elements 2 |
MAE4004 |
3.0
Design of Machine Elements 2
3
2
This course is a subsequent one to machine elements 1.
It involves the design of power transmission machine elements such as gears, brakes and belts. In addition, a system design project is conducted by the team works and presented as a form of written document and oral report.
|
55 |
3 |
2 |
Fluid Machinery |
MAE4009 |
3.0
Fluid Machinery
3
2
Principles of fluid machinery, various pumps and turbines,
hydraulic power delivery systems, hydraulic control systems,
fans, blowers and air compressors, and vacuum pumps.
|
56 |
3 |
2 |
Plastic Forming |
MAE4011 |
3.0
Plastic Forming
3
2
Metal forming is a mechanical production process to
obtain a specified shape and properties by plastic
deformation of metal. To understand metal forming,
mechanics underneath metal forming should be studied.
Material behavior such as elasticity, yielding, and
plastic deformation are described, then some basic
theories of plasticity are introduced. Finally, each
of practical production processes, for example, rolling,
pressing, extrusion and so on are described.
|
57 |
3 |
2 |
Air Conditioning and Refrigeration |
MAE4059 |
3.0
Air Conditioning and Refrigeration
3
2
Thermodynamics of air as a mixture of dry air and water
vapor are studied. The concept of absolute and relative
humidity are introduced. To estimate total cooling load,
conduction through wall, air change, and various sources
of heat are investigated. To generate low temperature,
refrigeration cycles are studied. The four components of
vapor compression refrigeration cycle, such as
compressor, evaporator, condenser, and expansion valve,
are studied separately, and finally synthesized to build
a refrigeration system. Simulation of a refrigeration
system is conducted via appropriate software.
|
58 |
4 |
1 |
Mechanical Engineering Capstone Design 2 |
MAE3032 |
3.0
Mechanical Engineering Capstone Design 2
4
1
In the mechanical engineering Capstone Design 2 deal, the approach to solve the engineering problems using experiments, theory and numerical methods based on the mechanical engineering is pursued. Through this course, the students can experience the importance of the teamwork, improve the ability to solve the engineering problems, and naturally approach the practical project using the experimental and theoretical knowledge.
|
59 |
4 |
1 |
Robot Engineering |
MAE4019 |
3.0
Robot Engineering
4
1
Robots becomes one of important tools in manufacturing industry and expected to be widely used in future life. Thus, recently robots for various purpose are under development. This lecture introduces basic concepts of robotics and its mathematical derivations. Frame discription, forward/inverse kinematics, Jacobian, and trajectory generation will be covered, and the project to build and operate a simple robot will be also included.
|
60 |
4 |
1 |
Mold Design |
MAE4037 |
3.0
Mold Design
4
1
1Mold is a very important device for the manufacturing of various parts and is consist of press mold and injection mold
This is a manufacturing process by the use of plastic deformation and flowability of the materials. Based on the understanding of force-deformation relationship, this course covers the subject for the various parts of the mold, manufacturing method in terms of process conditions and the problem solving method for the precise final products.
|
61 |
4 |
1 |
Finite Element Method |
MAE4049 |
3.0
Finite Element Method
4
1
Fundamental concepts and techniques of primal finite
element methods. Method of weighted residuals, Galerkin's
method, and variational equations. Linear elliptic boundary
value problems in one, two, and three space dimensions;
applications in structural, solid, and fluid mechanics
and heat transfer. Properties of standard element families
and numerically integrated elements. Implementation of the
finite element method. Active column equation solver,
assembly of equation, and element routines. The mathematical
theory of finite elements.
|
62 |
4 |
1 |
Environment-Friendly Vehicles |
MAE4073 |
3.0
Environment-Friendly Vehicles
4
1
Driven by global issues like fossil fuel depletion and environmental pollution, various environment-friendly vehicles (EFV) such as electrical vehicles, hybrid electrical vehicles, fuel cell electric vehicles, and clean diesel vehicles are competitively developed by most auto companies, and a few of them have already been in the market for several years. The fundamental principles and design-related technologies of these new family of vehicles will be discussed.
|
63 |
4 |
1 |
Microprocessor Basic |
MAE4079 |
3.0
Microprocessor Basic
4
1
Recent mechanical engineering requires more electrical, electronics or computer science knowledge, and among them microprocessor knowledge would be the indispensible technology for the advanced mechanical design and implementation. The objective of the lecture would be targeted to disseminate basic knowledge for the microprocessor (in this subject, 16 bit widely used micro-controller) and application technology impart to the mechanical engineers. Therefore, after taking the course, he or she would acquire the basic and applicable knowledge about the 16bit microprocessor. The lecture will be accompanied by the following experimental works :
(1) Basic Programming - How to use C in the microprocessor
(2) Application Board-LED/7 Segment/AD, DA Converter/Interrupt Signal Interface
(3) Application Program - Interfaced with application board, various topics will be experimented
|
64 |
4 |
1 |
Design of Thermo-Fluid System |
MAE4086 |
3.0
Design of Thermo-Fluid System
4
1
Thermo-fluid systems such as heating, cooling, piping system are studied to design. This lecture uses a software called EES, which has abundant database of thermodynamic properties, and lot of useful functions about thermo-fluid mechanics. The basic concepts of thermodynamics, fluid mechanics, and heat transfer are reviewed and applied to design thermo-fluid system.
|
65 |
4 |
1 |
Vehicle Dynamics and Control |
MAE9014 |
3.0
Vehicle Dynamics and Control
4
1
The objective of this lecture is to understand the physical concept of ride and handling of vehicle mainly focusing on the chasis systems and develop the equations of motion and finally predict behavior and control of wheels, body and the whole vehicle. The lecture is composed of two parts, ride and handling, and physical concept and equations of motion of each subject will be explained.
|
66 |
4 |
1 |
Mechanical Engineering Seminar 1 |
MAE9022 |
1.0
Mechanical Engineering Seminar 1
4
1
The seminar provides an interactive, professional forum for students in various topics of the Mechanical Engineering. Seminar presentations also provide information on professional opportunities available in the mechanical engineering.
|
67 |
4 |
1 |
Mechanical Metallurgy |
MSE2005 |
3.0
Mechanical Metallurgy
4
1
The study of deformation and fracture in materials is
covered, because the most concern in design is a
structural failure. It deals with the fracture mechanics
and the strength of the material. It also involves the
mechanical behaviour under various loading conditions
such as fatigue and creep.
|
68 |
4 |
2 |
Hydraulic Engineering |
MAE4018 |
3.0
Hydraulic Engineering
4
2
Primary design of the circuits of hydraulic power is the
goal of this lecture.
It contains the following contents.
1) The properties of hydraulic fluid
2) Fluid-power pumps and motors
3) Hydraulic actuators
4) Control valves for hydraulic power
5) Elementary hydraulic circuits and servo systems
|
69 |
4 |
2 |
Service Robotics |
MAE4060 |
3.0
Service Robotics
4
2
Robot is classified into Industrial Robot and Service
Robot. Service robots show big expansion of the market
since 2000. In this subject basic concepts and
characteristic of the service robotics, constituent
components and technology required for service robotics
and also characteristic of each specified application
fields and state of its art and problems will be analyzed.
In Service Robotics new and fresh ideas for it are very
important to make a breakthrough, and therefore each
student is motivated to induce new ideas and ideas are to
be discussed each other among students for mutual
understanding.
|
70 |
4 |
2 |
Fuel Cell Vehicles |
MAE4064 |
3.0
Fuel Cell Vehicles
4
2
History and classification of fuel cell vehicle are
explained. Components of it such as fuel cell and motor,
property of hydrogen fuel, basic structure and principle
of steering wheel and braking system are taught.
|
71 |
4 |
2 |
Welding Engineering |
MAE4068 |
3.0
Welding Engineering
4
2
Welding process is an indispensable to assemble the structures such as ships, automobiles, and so on. Knowledge of the weldability of materials and the principles of welding processes is necessary to design and develope the production process. And the ability to analyze the welded structure is required to design various kinds of structures. This course thus includes the studies about the weldability of various metals, characteristics and applicability of welding processes, mechanical properties of weld metal, and analysis of welded structures.
|
72 |
4 |
2 |
Automotive and Environmental Engineering |
MAE4069 |
3.0
Automotive and Environmental Engineering
4
2
We study the properties of automotive fuels, the formation mechanisms of exhaust emissions from the automobile, the measurement methods of these emissions and the after-treatment technologies of the exhaust emissions.
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73 |
4 |
2 |
Introduction to MEMS (MicroElectroMechanical Systems) |
MAE9020 |
3.0
Introduction to MEMS (MicroElectroMechanical Systems)
4
2
Microelectromechanical Systems (MEMS) is a new research and industrial field created through the fusion of mechanical engineering and electronic engineering. It is a core technology field in the 4th industry that often uses sensor technology through energy conversion concept of materials such semiconductors etc. In this course, students will learn about the mechanical structure and properties of various materials and the basic theories of semiconductor processing, and understand the general aspects of microsensor manufacturing by understanding semiconductor processing technologies such as oxidation, diffusion, metal deposition and silicon etching. In addition to basic manufacturing processes, we will understand the design, fabrication, and operation principles of micro MEMS devices such as pressure and acceleration sensors, and extend them to introduce various MEMS technologies such as sensor technology for smart cars and next-generation medical systems.
|
74 |
4 |
2 |
Mechanical Engineering Seminar 2 |
MAE9021 |
1.0
Mechanical Engineering Seminar 2
4
2
The seminar provides an interactive, professional forum for students in various topics of the Mechanical Engineering. Seminar presentations also provide information on professional opportunities available in the mechanical engineering.
|
75 |
4 |
2 |
Compressible Flow |
MAE9024 |
3.0
Compressible Flow
4
2
Compressible Flow is a subject concerning about the compressible fluid flow in detail which was not treated in the basic fluid dynamics. In general, the course assumes the inviscid flow and introduces about quasi-one-dimensional and two-dimensional flow fields and also compression and expansion waves. In addition, in a constant area duct the flow with only frictional effects and the flow with only heat transfer are studied.
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