Major
- Major of Mechanical System Engineering
- Major of Mechanical Design Engineering
- Major of Mechanical Advanced Engineering
- Multidisciplinary Major in Nuclear Engineering
Introduction
Mechanical engineering is an academic discipline that studies the principles, design, production and performance of various devices based on physical principles in order to make them practical, and it is related to all fields of engineering.
Mechanical engineering is playing an important role in high-tech fields such as development of new energy resources, space and marine exploration, new materials, bionics, etc. In particular, subjects such as mechatronics, which include both mechanical and electronic technologies, computer aided design (CAD)/manufacturing (CAM) and plant automation are fields with bright prospects in the future.
In lower-level classes, students learn basic dynamics in order to train their abilities to practice principles in physics and develop unique research capacities. In higher-level classes, students take application courses and experience actual lab works. School of Mechanical Engineering is divided into three programs such as Mechanical System, Mechanical Design and Advanced Engineering in order to assist students with the career plans, while students also complete courses such as foreign language, which is needed in this time of globalization.
Faculty: 40 full-time professors and 8 foreign professors in various fields
Major Academic Club Activities: Supports club activities so that students can utilize knowledge of their major
Grounding in Engineering: Emphasizes computer science and provides opportunity to learn other related subjects
Engineering Projects: Provide students with opportunity to make designs and productions so that they can have a comprehensive understanding of mechanical engineering
Informationization Education: Include computer skills in all major courses and prepare with curriculum and lab facilities for CAD/CAM
Multimedia Education: Utilize multimedia in most lectures to maximize educational effect
Factory Exercise: Improved design and exercises using factories that are actually operating
Research Achievements: Continuously granted by industry-academic cooperation research with considerable amount of funds
Mechanical Technology Research Center: Promote and support industry-academic cooperation research within the School of Mechanical Engineering
Multidisciplinary major in Nuclear Engineering
This educational program began in March 2011.
The purpose of this program is to train multidisciplinary human resources for nuclear industries. Academic departments including Mechanical Engineering, Electrical Engineering, Electronic Engineering, Civil Engineering, Materials Science and Engineering, Chemical Engineering are participating in this program. The students of this program will receive two degrees, their major field and minor in Nuclear Engineering.
History
For the past years, large amount of government funds such as the College of Engineering National Support Project and the BK21 Outstanding Local University Promotion Project has been invested. Thus, we are prepared with various advanced testing materials and facilities such as the 13,200m2 mechanics hall, factory exercise center, industry-academic cooperation center, etc.
In 2001, it became the first in the nation to test ABEEK program. In 2005, students automatically receive ABEEK certification as soon as they graduate. In addition, in the national college assessment, it was chosen as the fifth best mechanical engineering school from 81 colleges.
Job Fields
Students have many career paths to choose from such as automobile, aviation, shipbuilding, electronics, chemical and metal industries. Recently, there has also been an increasing demand for students of mechanical engineering in the high-tech fields as well. Students also have many opportunities to go on to graduate school. With the help of various career paths and the accomplishments of many graduates, the employment rate for this major exceeds 80%.
Faculty
-
Kang, Dong Jin,Professor
Homepage- KAIST Computational Fluid Mechanics, Heat Transfer, Turbo Machinery Design and Efficiency Analysis
-
Ko, Tae Jo,Professor
Homepage- POSTECH Machine Tools, Metal Cutting, Nontradition Machining,
-
Byeongil Kim,Professor
Homepage- The Ohio State Univ Vibration/Dynamics, Smart Structures
-
Kim Sung Chul,Professor
Homepage- Seoul National Univ. Thermal Management and Energy System, Automotive Cooling and Heating
-
KIM , JIN HO,Professor
Homepage- Univ. of California at Berkeley
-
Sang-Shin Park,Professor
Homepage- Seoul National Univ. Energy System, Tribology, System Design
-
Park, Jung Whan,Professor
Homepage- KAIST CAD/CAM, 5-Axis NC Machining, Surface Modeling
-
Bai, Cheolho,Professor
Homepage- Univ. of California, Los Angeles Heat and Mass Transfer, Thermodynamics, Two Phase Flow
-
Byeon, Jeong Hoon,Professor
Homepage- Yonsei Univ. Aerosol Technology, Thermo-Fluid Science
-
Shin, Dong-Kil,Professor
Homepage- KAIST Mechanical Engineering
-
Jaesool Shim,Professor
Homepage- Washington State University Energy and material transfer, nano/Bio, microfluidics
-
Lee, Byeong Jun,Professor
Homepage- Seoul National Univ. Combustion, Thermal Engineering
-
Lee, Choon Yeol,Professor
Homepage- Univ. of Texas at Austin Computational Mechanics, FEM, Nonlinear Mechanics
-
Chung,Byeong Mook,Professor
Homepage- KAIST Factory Automation, Intelligent Control, NC and Robot Control
-
Chung, Ilsup,Professor
- Purdue Univ. Mechanics of Composite Materials. Structural Mechanics
-
Joo, Sang Woo,Professor
- Univ. of Michigan Fluid Mechanics, Materials Processing, Hydrodynamic Stability, Applied Mathematics
-
Nam, Kanghyun,Associate Professor
Homepage- University of Tokyo Mobility Control, Vehicle Dynamics Control
-
Park, Jang Min,Associate Professor
Homepage- POSTECH Computational Mechanics
-
Yoo, Kisoo,Associate Professor
Homepage- Washington State University Battery, Electric Vehicle, Energy Storage System
-
Lim, Jiseok,Associate Professor
- Yonsei Univ.
-
JEONG CHANGYOON,Associate Professor
Homepage- Devices(sensor, energy harvesting, energy storage)
-
Jae-Hyun Kim,Assistant Professor
- Design of Electric Machines for Future Mobility (Robot, xEV, AAM, ...), Multi-physics Analysis of Electric Machines
-
Suh Wang Byuck,
-
Ki-Yeol Shin,
- Heat transfer, Energy system, Automation&Design
-
Michael McAteer,International Professor for Education
- The Australian National University F-6(거주):~2023-07-11
-
Banerjee A.Narayan,International Professor
Homepage- Jadavpur University Nanotechnology
-
Thupakula Venkata Madhukar Sreekanth,International Research Professor
-
Rajendran Prabakaran,International Research Professor
- Anna University
-
Vijayalakshmi Rudraraju,International Research Professor
- Sri Venkateswara Univ.
-
Neelakanta Reddy Itheereddi,International Research Professor
- Sri Venkateswara Univ.
-
Juraeva Makhsuda,International Research Professor
-
SHOEB MOHD,International Research Professor
- Aligarh Muslim University
-
Vattikuti Surya Veerendra Prabhakar,International Research Professor
- Ph.D
-
VEDIYAPPAN THIRUMAL,International Research Professor
- Alagappa Univ.
-
Chandragiri Venkata Reddy,International Research Professor
-
Vineet Kumar,International Research Professor
- Univ. of Milano-Bicocca
-
ALAM MD NAJIB,International Research Professor
- E-3
-
ANNU,International Research Professor
-
WAQAS UL ARIFEEN,International Research Professor
Homepage -
Mandal Tapas,International Research Professor
- E-3 / 2019.08.13. ~ 2020.03.31.
-
Patnamsetty Chidanandha Nagajyothi,International Research Professor
- Sri Venkateswara Univ.
-
PALANISAMY RAJKUMAR,International Research Professor
-
MASHKOOR FOUZIA,International Research Professor
sorted by the position and Korean name
Curriculum
School Of Mechanical Engineering
- 1-1,2
CurriculumThis table demonstrates the curriculum accroding to academic year. 1- 1 - GENERAL PHYSICS I
- Introduces classical mechanics. Space and time: straight-line kinematics; motion in a plane; forces and equilibrium; experimental basis of Newton's laws; particle dynamics; universal gravitation; collisions and conservation laws; work and potential energy; vibrational motion; conservative forces; inertial forces and non-inertial frames; central force motions; rigid bodies and rotational dynamics.
1- 1 - GENERAL PHYSICS LABORATORY I
- This course is designed to introduce the basic experiments in general physics. This course includes physical experiments related to classical mechanics ; Projectile Motion, Free Fall, Borda's Pendulum, Air Track, Resonance Tube App, force Table, Centripetal Force, Torsional Rigidity Pendulum
1- 1 - PRACTICAL ENGLISH
- The aim of the course is to help students develop basic English verbal skills in real life situations. The course will be co-taught by Korean and Native English instructors. Korean instructors will provide students with basic English structure, vocabulary, and expressions, and students will be encouraged to practice speaking English utilizing basic English structures. Students will further practice expressing themselves in English with native English instructors.
1- 1 - PRE-CALCULUS
- This course contains basic properties of sequences, limit of functions, continuous functions, rational and irrational functions, transcendental functions, elementary calculus, 3-dimensional vectors, and matrices.
1- 1 - PYTHON PROGRAMMING
- The core competencies required in the era of the Fourth Industrial Revolution is the ability to come up with idea for solving a given problem and realize it in software. In this course, as the first step this, we will learn Python programming language. This course aims to cultivate basic programming skills and problem-solving skills based on creative thinking. The topics covered in this course are as follows. - Python language grammar (basic and advanced levels) - Python library for GUI programming (tkinter) - Python library for image processing (pillow) - Python libraries for data analysis (Matplotlib, Numpy, and Pandas)
1- 1 - SEMINAR FOR ACADEMIC LIFE
- 1. Summary of the course This course is to assist university freshmen in CRM designing to adapt university life well through the instruction and counselling of supervising professor. (This course is composed of self analysis, personality type test, career research, instruction for the success of university life, career plan and direction setting, CRM designing method and CRM designing. The course should be teaching in classes of the students by supervising professor.) 2. Course objectives This course is to motivate the students before the mid term exam and provide students with self analysis, personality type test (MBTI or TCI) and career research (YAT test). Also, this course shall has a plan to instruct the students to enhance the efficiency of university life through career and time management. In addition, this course is to make a chance for the students to have practical assistance to university life by providing study method, report designing strategy and the information on academic system and various kinds of internal programs of the university. After the mid term exam, the students will be instructed to set the direction of career designing through continuous counselling of supervising professor and the students will be able to establish CRM designing and execution plan.
1- 1 - SOCIAL CONTRIBUTION AND SERVICE
- This course is to cultivate community sense as members of society and the global village for students in order to develop the basic knowledge required as global citizens. Especially, this course is to foster the spirit of cooperation, sharing, service, and creativity and study the social contribution and leadership to solving the challenges the global community faces. As a liberal arts course, it is centered to nurture a leader having the global capability to contribute to community development through learning the knowledge and the case on the value & logic of social responsibility focused on environmental preservation, social contribution, and good governance(ESG). This course aims to foster a generous mind, learn knowledge and technology and build the capacity to contribute to building a society towards a safer and happier world through the study of theory and practice.
1- 2 - CALCULUS I
- Calculus(1) covers the following: Sequences, limits and continuity of functions of single variable, derivatives, properties of derivatives, differentiation rules, higher order derivatives, applications of derivatives, definite integrals, indefinite integrals, properties of integrals, integration rules, applications of integrals, infinite series power series.
1- 2 - SOFTWARE AND AI
- Software and AI (Artificial Intelligence) course aims to educate the basic concepts of software and computational thinking to use them in various applications. It allows students of various majors to experience the core technologies of the 4th industrial revolution, such as big data, machine learning, and AI. It also introduces various applications of AI so that students can easily apply these technologies to their field of study. This course classifies the lecture types into three categories, and adjust the lecture difficulty according to the student's academic ability.
1- 2 - COMPUTER AIDED DRAFTING
- Fundamentals of computer aided drawing. Drawing of mechanical parts using a commercial CAD S/W such as AutoCAD.
1- 2 - STATICS
- Lecture on the principles of statics includes concepts of statics, force, moment, force and moment equilibrium, rigid body, internal force, friction, center of mass, moment of inertia and virtual work.
Major Of Mechanical System Engineering
- 2-1,2
CurriculumThis table demonstrates the curriculum accroding to academic year. 2- 1 - INTRODUCTION TO ELECTRICAL ENGINEERING
- This course introduces the basic principles on electrical and electronic engineering for materials engineering students. Topics covered are basic circuit theory, analysis of DC and AC circuit, dynamics of circuit, power in AC circuit, semiconductor devices, and digital and analog electronics.
2- 1 - MATERIALS OF MACHINES
- Lectures on the material types, their structures and mechanical characteristics to provide the idea for design and manufacturing of machines, heat treatment and manufacturing processes of materials ; applications of various fabrication methods and thermal processing of metal alloys, ceramics, polymers; corrosion and degradation of materials.
2- 1 - 3D MODELING
- The class covers drafting & modeling of mechanical parts and assemblies through acquiring related theory and practicing. Students learn basic 2D drafting and 3D CAD theory, but also 3D design functions and applications, along with intensive practice of commercial CAD softwares.
2- 1 - ENGINEERING MATHEMATICS I
- Basics and theory of ordinary differential equations: Fourier series, Fourier transformation, Laplace transformation, first order ODE's, higher-order ODE's, series solutions of ODE's, eigenfunction methods for differential equations.
2- 1 - INTRODUCTION TO ENGINEERING DESIGN
- This course provides the understandings on the concept of engineering problems and creative design method, and how to easily solve encountered engineering problems based on systematic procedures and methodologies. In addition, collaborating with colleagues, communication skills, comprehensive design method, system development will be considered as important purposes.
2- 1 - MECHANICS OF MATERIALS
- Some basic concepts of equilibrium, stresses, strains, and their relationships of deformable bodies are considered. The theories of the stresses and deformations in members under simple tension/ compression or shear, a shaft under torsion and a beam subjected to bending are studied.
2- 1 - THERMODYNAMICS
- Lectures on the concepts of equilibrium and temperature, definition of work and heat and energy; first law and second law of thermodynamics, entropy and application of second law, principle and introductions of energy conversion cycles.
2- 2 - ENGINEERING MATHEMATICS Ⅱ
- As a basis of engineering analysis for mechanics and transportation phenomena, ordinary and partial differential equations, and fundamentals of probability and statistics will be covered with solution methods for practical examples.
2- 2 - APPLIED MECHANICS OF MATERIALS
- Lectures on the elastic deflection of the beams, statically indeterminate beams, coordinate transformations of stresses and strains, combined loadings, structural instability of the columns, plastic behavior of materials, and energy methods are dealt in order to study the mechanics of materials.
2- 2 - APPLIED THERMODYNAMICS
- Lectures on the analysis of thermodynamic cycles such as vapor cycles, gas cycles and refrigeration cycles, thermodynamic relations, mixtures and air conditioning, combustion and chemical equilibrium.
2- 2 - DYNAMICS
- Lectures on kinematics and dynamics of a particle, work and energy principle, impulse and momentum principle, dynamics of a system of particles, and rigid body dynamics.
2- 2 - FLUID MECHANICS
- Lectures on the concept of continuum mechanics, the definition of fluid properties, hydrostatics, fluid dynamics, dimensional analysis, similarity, Navier-Stokes equations, momentum theory, pipe flow, inviscid flow, boundary layer, flow separation, and the airfoil theory.
2- 2 - MANUFACTURING PROCESSES
- general introduction of manufacturing processes, recent trends, material properties, surface treatments, metrology, casting, plastic workings, machining processes, abrasive processes, welding etc.
- 3-1,2
CurriculumThis table demonstrates the curriculum accroding to academic year. 3- 1 - HEAT TRANSFER
- Fundamentals of heat transfer including steady conduction, transient conduction, forced and free convection, thermal radiation, boiling and condensation.
3- 1 - KINEMATICS
- Both graphical and analytical methods for the analysis of planar linkage systems, cams and gears will be covered in depth. A brief introduction to the numerical methods for some simple planar mechanisms will be given. Also topics on the kinematic synthesis will be included.
3- 1 - MECHANICAL ENGINEERING EXPERIMENT(1)
- Engineering laboratory to characterize the material's properties with beam, strain gauge and photoelastic method and to find the mechanical properties of strength and hardness with various testing machines.
3- 1 - NUMERICAL ANALYSIS
- Numerical Analysis is a blend of mathematics and computer science that has produced powerful tools for solving intractable problems in science and engineering. This course covers error analysis, solution of equations of one variable, interpolation and polynomial approximation, numerical integration and differentiation, numerical solution of initial problems, direct & iterative methods for solving linear systems, solutions of systems of nonlinear equations, approximation theory and approximating eigenvalues, numerical methods for partial differential equations.
3- 1 - PLASTIC DEFORMATION TECHNOLOGY
- The objective of this course is to develop the ability of analysis and design for manufacturing processes, with the emphasis of theoretical foundation of deformation. To accomplish the objective, short introduction of plasticity theory of plasticity will be handled. During this course, CAE analysis and design project will be given in order to design optimal manufacturing systems with settling the predicted phenomena by the CAE.
3- 1 - DESIGN OF MACHINE ELEMENTS I
- Design of shaft, shaft coupling, journal and bearing, brake, spring, fly wheel, belt, rope gearing, chain, cam, gear, and friction gearing, etc.
3- 1 - MECHANICAL VIBRATION
- An introduction to the theory of mechanical vibrations including topics of harmonic motion, free and forced vibrations, influences of damping, resonance, transient excitation. Normal modes of multi-degree-of-freedom and continuous systems.
3- 2 - COMPUTATIONAL FLUID DYNAMICS AND PRACTICE
- Lectures on fundamental information and practice by using C-MOLD software about plastic injection molding. All of student should build the homepage for the lecture, and link the report in the form of HTML documents.
3- 2 - COMPUTER-AIDED MEASUREMENT AND CONTROL
- Fundamental knowledge of the electrical and electronic engineering is becoming a must for an engineering students in many different majors. In this respect, the objective of this class is to give an introduction of the electrical and electronic engineering fundamentals to the students majoring in the chemical engineering and technology.
3- 2 - DESIGN OF MACHINE ELEMENTS II
- Design of mechanical system means the design of things and systems ofa mechanical nature-machines, products, structures, devices, and instruments, and deals with the creation of machinery that works safely, reliably and well.
3- 2 - DESIGN OF MANUFACTURING PROCESS FOR CHASSIS 1
- Design of Manufacturing process for chassis 1 is compulsory subject for the student who want to complete the coursed in the Sewon track. The field engineers from Sewon and a professor from school of mechanical engineering will teach together. This is a kind of University-Industry cooperation course. The car bodies called chassis are produced through several stages of manufacturing. Every stage needs to be understood by the designer. This subject is first step for the students who will study process of manufacturing the car bodies.
3- 2 - FINITE ELEMENT METHOD FOR DESIGN
- This course includes lectures on basic theories of Finite Element Method, instruction on how to use commercial FEM programs and applications to practical problems by term projects.
3- 2 - MECHANICAL ENGINEERING EXPERIMENT(2)
- Basic principles of thermal engineering : thermocouple compensation, measurement of heating values, heat transfer, heat balance of boiler, gasoline engine, diesel engine, heat pump, refrigeration system performance test. Basic principles fluid engineering : measurement of viscosity, Bernoulli principle, impinging jets, Reynolds number, pipe friction, blower performance, drag and lift.
3- 2 - ROBOTICS
- Students can understand the basics of robotics and computer vision system. They can use these subject for the design of future robots and automated systems.
3- 2 - TEACHING MATERIALS AND TECHNIQUES FOR ENGINEERING EDUCATION
- Selected formulations of instruction and teaching-learning process applicable to technical high school and general high school based on curriculum for the subject of technical education. Also this lecture provides opportunity for the student to make teaching plan, teaching materials and evaluation, teaching method, and skills in the field to improve attainments as a teacher of high school.
3- 2 - MECHANICAL ENGINEERING PROJECT I(CAPSTONE DESIGN)
- Design of an engineering system. Design factors include efficiency, economy, safety, reliability, and social impact. Final report of engineering specifications and drawings to be presented by design teams.
- 4-1,2
CurriculumThis table demonstrates the curriculum accroding to academic year. 4- 1 - AUTOMATIC CONTROL
- The aim of the this course is to provide opportunity to study the basic of feedback control systems. This course deals with modeling of dynamic system, signal flow graph, state equation, characteristics and performances of the feedback control system, simple stability analysis of linear system using Routh-Hurwitz method, root-locus techniques, frequency response techniques, stability of frequency domain and design of feedback control system. And design controller using modern control theories - design of the linear quadratic optimal control in state space, pole placement control, robust control - will be introduced.
4- 1 - COMPUTER AIDED MANUFACTURING AND MACHINE TOOLS
- Recent development of CNC machine tools made possible to realize the machining the products that has been designed at the CAD system. The technology related with this development is CAM, which transforms the CAD data into the CNC language. In this subject, CAM, CNC machine tools and related machining method will be introduced.
4- 1 - DESIGN OF MANUFACTURING PROCESS FOR CHASSIS 2
- The students who pass the Design of Manufacturing process for chassis 1 can enroll in this course. This course is also compulsory for the students who are in Sewon track. Based on the basic design knowledge from the course 1, the advanced knowledge will be taught. The overall process for manufacturing process including robot, welding, automation, plasticity, and etc will be lectured.
4- 1 - ENGINEERING EDUCATION THEORY
- Selected theories of engineering education that have application to technological high school, cooperative education between industries and school, career guidance or vocational guidance and evaluation of engineering education are explored and evaluated in this course.
4- 1 - FUTURE AUTONOMOUS VEHICLE AND ALTERNATIVE ENERGY
- This course studies on the future vehicles including natural gas vehicle, hybrid electric vehicle, hydrogen vehicle, ethanol vehicle, electric vehicle, fuel cell vehicle, etc., focusing on the working principles and their future prospect. In addition, alternative energies in the future is also called as regenerative energies and they include solar thermal energy, photovoltaic electricity generation, wind energy, biomass, fuel cell, ocean energy, etc. This lecture also studies about their characteristics and their future.
4- 1 - MECHATRONICS
- The mechatronics deals with a fusion technology between a mechanical and electronic engineering. The lecture materials includes the theories on precision actuators, precision measuring sensors, controller and drivers and the high-precision control. The precision actuators deal with a piezoelectric actuator and a voice coil motor. The precision measurement is on a capacitive sensor and a laser interferometer. As with electronic driver and controllers, various analog and digital parts will be introduced. Finally, a simple PID control scheme will be introduced and demonstrated in a simple nano-stage.
4- 1 - NANO ENGINEERING
- The former part of the lecture introduces the up-to-date nano-technology and nano-science briefly. In the view point of mechanical engineering, the latter part of the lecture will provide undergraduate students with the way that design and control the high precision positioning system with nanometer precision. The lecture also deals with the precision design principles, precise error analyses, precise positioning sensors, bearings and motion acuators etc.
4- 1 - SPECIAL LECTURES BY INDUSTRY LECTURERS
- This course is composed of scheduled seminars given by lecturers from industries. The objective of the course is to introduce the students with the specific job environments of and required abilities for the compnaies in the electro-mechanical fields. It is expected that this course will help students in preparing for their potential jobs in related fields.
4- 1 - MECHANICAL ENGINEERING PROJECT II(CAPSTONE DESIGN)
- Continuing course of Mechanical Engineering Project Ⅰ. Fabrication of designed engineering system and assessment through exhibition. Final report is thesis of B.S.
4- 2 - ADVANCED ENGINEERING MATERIALS
- Introduce the newly developed engineering materials and lecture on the mechanical properties, characteristics and applicable areas in mechanical engineering field among the selected new materials. Especially, the structures, properties and processing techniques of polymer and ceramic materials will be covered in detail, and the future developing trend and possible applications of new materials will be discussed. Also, a characteristic and application of composites will be taught.
4- 2 - AIR CONDITIONING AND ENVIRONMENT
- This subject will cover a wide range of air conditioning and quality engineering principles and applications, particularly providing guidelines for identifying and analyzing air quality problems as well as designing a system to mitigate these problems. Structured into three sections - properties and behavior of airborne pollutants, measurement and sampling efficiency, and air quality enhancement technologies with air conditioning - this lecture will use real-life examples, design problems, and solutions to illustrate air conditioning engineering principles. Students and professionals in engineering, environmental sciences, public health, and industrial hygiene concerned with air conditioning and quality control need to find issues in Air Conditioning and Environment that may provide effective methods, technologies, and principles not traditionally covered in other subjects.
4- 2 - DIE DESIGN
- This lecture provides basic knowledge about mold materials, mold structure and mold design method for various polymer molding processes such as injection molding and compression molding. Also this lecture provides a surface modeling method for understanding of the design process of the mold cavity structure in CAD system. The lecture will take various molds from manufacturing industry as examples. Also this lecture includes mold design practice by using CAD software.
4- 2 - INTRODUCTION TO AUTOMOBILE ENGINEERING
- Lectures on the effects of automobile on the human society and environment, the structures, functions and fundamental knowledges for technical design of parts, maintenance and rightful usage.
4- 2 - LOGICAL THINKING AND WRITING SKILLS IN ENGINEERING
- In this course, the students in educational study for engineering field will be trained about logical thinking and writing abilities.
4- 1,2 - FIELD EDUCATION PRACTICE
- The objective of this program is to improve student's ability of industrial application through two-week field education practice during vacation.
Major Of Mechanical Design Engineering
- 2-1,2
CurriculumThis table demonstrates the curriculum accroding to academic year. 2- 1 - INTRODUCTION TO ELECTRICAL ENGINEERING
- This course introduces the basic principles on electrical and electronic engineering for materials engineering students. Topics covered are basic circuit theory, analysis of DC and AC circuit, dynamics of circuit, power in AC circuit, semiconductor devices, and digital and analog electronics.
2- 1 - MATERIALS OF MACHINES
- Lectures on the material types, their structures and mechanical characteristics to provide the idea for design and manufacturing of machines, heat treatment and manufacturing processes of materials ; applications of various fabrication methods and thermal processing of metal alloys, ceramics, polymers; corrosion and degradation of materials.
2- 1 - 3D MODELING
- The class covers drafting & modeling of mechanical parts and assemblies through acquiring related theory and practicing. Students learn basic 2D drafting and 3D CAD theory, but also 3D design functions and applications, along with intensive practice of commercial CAD softwares.
2- 1 - ENGINEERING MATHEMATICS I
- Basics and theory of ordinary differential equations: Fourier series, Fourier transformation, Laplace transformation, first order ODE's, higher-order ODE's, series solutions of ODE's, eigenfunction methods for differential equations.
2- 1 - INTRODUCTION TO ENGINEERING DESIGN
- This course provides the understandings on the concept of engineering problems and creative design method, and how to easily solve encountered engineering problems based on systematic procedures and methodologies. In addition, collaborating with colleagues, communication skills, comprehensive design method, system development will be considered as important purposes.
2- 1 - MECHANICS OF MATERIALS
- Some basic concepts of equilibrium, stresses, strains, and their relationships of deformable bodies are considered. The theories of the stresses and deformations in members under simple tension/ compression or shear, a shaft under torsion and a beam subjected to bending are studied.
2- 1 - THERMODYNAMICS
- Lectures on the concepts of equilibrium and temperature, definition of work and heat and energy; first law and second law of thermodynamics, entropy and application of second law, principle and introductions of energy conversion cycles.
2- 2 - CAD THEORY AND PRACTICE
- The aim of the subject is to acquire basic knowledge and experience on 3D modeling of mechanical part and assembly design. The class is composed of theory of geometric modeling and software practice, including following topics. - Basic mathematics - Solid modeling - Curve & surface modling - Assembly modeling - CAD data exchange
2- 2 - ENGINEERING MATHEMATICS Ⅱ
- As a basis of engineering analysis for mechanics and transportation phenomena, ordinary and partial differential equations, and fundamentals of probability and statistics will be covered with solution methods for practical examples.
2- 2 - PRACTICE OF ADVANCED MECHANICS OF MATERIALS
- In order to enhance the practical application for the students, general commercial code "ANSYS" which is one of the most popular program in industry is used for practice in this course. The theories of courses in the mechanics of materials are confirmed through the practices of structural computations for relatively simple structures such as truss, shaft, beam and column.
2- 2 - APPLIED MECHANICS OF MATERIALS
- Lectures on the elastic deflection of the beams, statically indeterminate beams, coordinate transformations of stresses and strains, combined loadings, structural instability of the columns, plastic behavior of materials, and energy methods are dealt in order to study the mechanics of materials.
2- 2 - DYNAMICS
- Lectures on kinematics and dynamics of a particle, work and energy principle, impulse and momentum principle, dynamics of a system of particles, and rigid body dynamics.
2- 2 - FLUID MECHANICS
- Lectures on the concept of continuum mechanics, the definition of fluid properties, hydrostatics, fluid dynamics, dimensional analysis, similarity, Navier-Stokes equations, momentum theory, pipe flow, inviscid flow, boundary layer, flow separation, and the airfoil theory.
2- 2 - MANUFACTURING PROCESSES
- general introduction of manufacturing processes, recent trends, material properties, surface treatments, metrology, casting, plastic workings, machining processes, abrasive processes, welding etc.
- 3-1,2
CurriculumThis table demonstrates the curriculum accroding to academic year. 3- 1 - APPLIED CAD/CAM
- The aim of the subject is to acquire knowledge and practice on design & manufacturing process, including following topics. - DMU (digital mock-up) - Digital manufacturing - Computer-aided process planning - Tool-path generation - NC programming - Machining simulation & verification
3- 1 - COMPUTATIONAL FLUID DYNAMICS FOR DESIGN AND LABORATORY
- Lectures on fundamental information and practice by using C-MOLD software about plastic injection molding. All of student should build the homepage for the lecture, and link the report in the form of HTML documents.
3- 1 - HEAT TRANSFER
- Fundamentals of heat transfer including steady conduction, transient conduction, forced and free convection, thermal radiation, boiling and condensation.
3- 1 - KINEMATICS
- Both graphical and analytical methods for the analysis of planar linkage systems, cams and gears will be covered in depth. A brief introduction to the numerical methods for some simple planar mechanisms will be given. Also topics on the kinematic synthesis will be included.
3- 1 - MECHANICAL ENGINEERING EXPERIMENT(1)
- Engineering laboratory to characterize the material's properties with beam, strain gauge and photoelastic method and to find the mechanical properties of strength and hardness with various testing machines.
3- 1 - NUMERICAL ANALYSIS
- Numerical Analysis is a blend of mathematics and computer science that has produced powerful tools for solving intractable problems in science and engineering. This course covers error analysis, solution of equations of one variable, interpolation and polynomial approximation, numerical integration and differentiation, numerical solution of initial problems, direct & iterative methods for solving linear systems, solutions of systems of nonlinear equations, approximation theory and approximating eigenvalues, numerical methods for partial differential equations.
3- 1 - DESIGN OF MACHINE ELEMENTS I
- Design of shaft, shaft coupling, journal and bearing, brake, spring, fly wheel, belt, rope gearing, chain, cam, gear, and friction gearing, etc.
3- 1 - MECHANICAL VIBRATION
- An introduction to the theory of mechanical vibrations including topics of harmonic motion, free and forced vibrations, influences of damping, resonance, transient excitation. Normal modes of multi-degree-of-freedom and continuous systems.
3- 2 - COMPUTER-AIDED MEASUREMENT AND CONTROL
- Fundamental knowledge of the electrical and electronic engineering is becoming a must for an engineering students in many different majors. In this respect, the objective of this class is to give an introduction of the electrical and electronic engineering fundamentals to the students majoring in the chemical engineering and technology.
3- 2 - DESIGN OF MACHINE ELEMENTS II
- Design of mechanical system means the design of things and systems ofa mechanical nature-machines, products, structures, devices, and instruments, and deals with the creation of machinery that works safely, reliably and well.
3- 2 - DESIGN OF MANUFACTURING PROCESS FOR CHASSIS 1
- Design of Manufacturing process for chassis 1 is compulsory subject for the student who want to complete the coursed in the Sewon track. The field engineers from Sewon and a professor from school of mechanical engineering will teach together. This is a kind of University-Industry cooperation course. The car bodies called chassis are produced through several stages of manufacturing. Every stage needs to be understood by the designer. This subject is first step for the students who will study process of manufacturing the car bodies.
3- 2 - FINITE ELEMENT METHOD FOR DESIGN
- This course includes lectures on basic theories of Finite Element Method, instruction on how to use commercial FEM programs and applications to practical problems by term projects.
3- 2 - MECHANICAL ENGINEERING EXPERIMENT(2)
- Basic principles of thermal engineering : thermocouple compensation, measurement of heating values, heat transfer, heat balance of boiler, gasoline engine, diesel engine, heat pump, refrigeration system performance test. Basic principles fluid engineering : measurement of viscosity, Bernoulli principle, impinging jets, Reynolds number, pipe friction, blower performance, drag and lift.
3- 2 - ROBOTICS
- Students can understand the basics of robotics and computer vision system. They can use these subject for the design of future robots and automated systems.
3- 2 - TEACHING MATERIALS AND TECHNIQUES FOR ENGINEERING EDUCATION
- Selected formulations of instruction and teaching-learning process applicable to technical high school and general high school based on curriculum for the subject of technical education. Also this lecture provides opportunity for the student to make teaching plan, teaching materials and evaluation, teaching method, and skills in the field to improve attainments as a teacher of high school.
3- 2 - THERMO-FLUID SYSTEM DESIGN
- This course provides the fundamental background for the analysis and design of fluid thermal systems. Fundamentals of thermodynamics, fluid mechanics and heat transfer are reviewed. These fundamental principles are applied to fluid thermal systems such as power plant, gas turbine engines, refrigerator and air conditioning system, chemical plant, drying system,desalination plant, heat recovery system, waste treatment system. The fluid thermal systems are consisted of heat exchangers, piping networks, compressor and pumps, turbines, and boiler etc. The final design is visualized by using a CAD program.
3- 2 - MECHANICAL ENGINEERING PROJECT I(CAPSTONE DESIGN)
- Design of an engineering system. Design factors include efficiency, economy, safety, reliability, and social impact. Final report of engineering specifications and drawings to be presented by design teams.
- 4-1,2
CurriculumThis table demonstrates the curriculum accroding to academic year. 4- 1 - AUTOMATIC CONTROL
- The aim of the this course is to provide opportunity to study the basic of feedback control systems. This course deals with modeling of dynamic system, signal flow graph, state equation, characteristics and performances of the feedback control system, simple stability analysis of linear system using Routh-Hurwitz method, root-locus techniques, frequency response techniques, stability of frequency domain and design of feedback control system. And design controller using modern control theories - design of the linear quadratic optimal control in state space, pole placement control, robust control - will be introduced.
4- 1 - AUTOMATIC SYSTEM DESIGN
- The hydraulic and pneumatic components are described and the design of hydraulic and/or pneumatic circuit is discussed by applying a sequence control theory and its application.
4- 1 - DESIGN OF MANUFACTURING PROCESS FOR CHASSIS 2
- The students who pass the Design of Manufacturing process for chassis 1 can enroll in this course. This course is also compulsory for the students who are in Sewon track. Based on the basic design knowledge from the course 1, the advanced knowledge will be taught. The overall process for manufacturing process including robot, welding, automation, plasticity, and etc will be lectured.
4- 1 - ENGINEERING EDUCATION THEORY
- Selected theories of engineering education that have application to technological high school, cooperative education between industries and school, career guidance or vocational guidance and evaluation of engineering education are explored and evaluated in this course.
4- 1 - FLUID MACHINERY DESIGN
- Lectures on detailed components and operation principle of fluid machinery. Fan, blower, compressor, pump and hydraulic fluid machinery are dealt with.
4- 1 - INTERNAL COMBUSTION ENGINE
- Studies on the principles of internal combustion engines such as gasoline engine, diesel engine. Also the effects of various factors on the performance, exhaust gas compositions and combustion will be learned.
4- 1 - MECHANICAL BEHAVIOR OF ENGINEERING MATERIALS
- Based on the topics of mechanics of materials and materials of machines, theories of elasticity/plasticity, dislocation, fracture mechanics, fatigue, creep, fracture toughness, and residual stresses will be discussed for design in the aspect of mechanical strength. After studying the various life estimation techniques and damage tolerance design methods based on fracture mechanics, the case studies for various failures and accidents in cases of machine and structure will be performed to prevent the future accident.
4- 1 - MICROPROCESS AND APPLICATION
- The class aims to study working principle of a microprocessor and additional digital devices. The class is composed of three steps. First, students study the working principle. Second, based on the working principle, program the microprocessor for practices. Finally, make algorithm to control actuators and sensors by using the microprocessor as a team project to achieve a certain goal.
4- 1 - SPECIAL LECTURES BY INDUSTRY LECTURERS
- This course is composed of scheduled seminars given by lecturers from industries. The objective of the course is to introduce the students with the specific job environments of and required abilities for the compnaies in the electro-mechanical fields. It is expected that this course will help students in preparing for their potential jobs in related fields.
4- 1 - MECHANICAL ENGINEERING PROJECT II(CAPSTONE DESIGN)
- Continuing course of Mechanical Engineering Project Ⅰ. Fabrication of designed engineering system and assessment through exhibition. Final report is thesis of B.S.
4- 2 - INTRODUCTION TO AUTOMOBILE ENGINEERING
- Lectures on the effects of automobile on the human society and environment, the structures, functions and fundamental knowledges for technical design of parts, maintenance and rightful usage.
4- 2 - INTRODUCTION TO DISPLAY ENGINEERING
- The dust and bacterial-free contditions provided by cleanrooms are essential for modern display industry. To understand display industry, cleanroom related topics such as cleanroom classifications, design, and operation will be studied in this lecture. In addition, many modern display products such as PDP, LCD, LED, OLED, etc will be introduced in the lecture. So, students will study on the operation principles and manufacturing processes of these specific products.
4- 2 - LOGICAL THINKING AND WRITING SKILLS IN ENGINEERING
- In this course, the students in educational study for engineering field will be trained about logical thinking and writing abilities.
4- 2 - MANUFACTURING SYSTEM AND QUALITY CONTROL
- This course is for undergraduate students and includes basis of production systems. Contents: concepts of systems, concepts of production systems, material flows, product planning, layout planning, process planning, production planning, scheduling, calculation of production cost, and manufacturing automation.
4- 2 - WELDING ENGINEERING
- The classification of joining methods, the metallurgy and welding of metal, and processes of various welding methods are studied systematically.
4- 1,2 - FIELD EDUCATION PRACTICE
- The objective of this program is to improve student's ability of industrial application through two-week field education practice during vacation.
Major Of Mechanical Advanced Engineering
- 2-1,2
CurriculumThis table demonstrates the curriculum accroding to academic year. 2- 1 - INTRODUCTION TO ELECTRICAL ENGINEERING
- This course introduces the basic principles on electrical and electronic engineering for materials engineering students. Topics covered are basic circuit theory, analysis of DC and AC circuit, dynamics of circuit, power in AC circuit, semiconductor devices, and digital and analog electronics.
2- 1 - MATERIALS OF MACHINES
- Lectures on the material types, their structures and mechanical characteristics to provide the idea for design and manufacturing of machines, heat treatment and manufacturing processes of materials ; applications of various fabrication methods and thermal processing of metal alloys, ceramics, polymers; corrosion and degradation of materials.
2- 1 - 3D MODELING
- The class covers drafting & modeling of mechanical parts and assemblies through acquiring related theory and practicing. Students learn basic 2D drafting and 3D CAD theory, but also 3D design functions and applications, along with intensive practice of commercial CAD softwares.
2- 1 - ENGINEERING MATHEMATICS I
- Basics and theory of ordinary differential equations: Fourier series, Fourier transformation, Laplace transformation, first order ODE's, higher-order ODE's, series solutions of ODE's, eigenfunction methods for differential equations.
2- 1 - INTRODUCTION TO ENGINEERING DESIGN
- This course provides the understandings on the concept of engineering problems and creative design method, and how to easily solve encountered engineering problems based on systematic procedures and methodologies. In addition, collaborating with colleagues, communication skills, comprehensive design method, system development will be considered as important purposes.
2- 1 - MECHANICS OF MATERIALS
- Some basic concepts of equilibrium, stresses, strains, and their relationships of deformable bodies are considered. The theories of the stresses and deformations in members under simple tension/ compression or shear, a shaft under torsion and a beam subjected to bending are studied.
2- 1 - THERMODYNAMICS
- Lectures on the concepts of equilibrium and temperature, definition of work and heat and energy; first law and second law of thermodynamics, entropy and application of second law, principle and introductions of energy conversion cycles.
2- 2 - ENGINEERING MATHEMATICS Ⅱ
- As a basis of engineering analysis for mechanics and transportation phenomena, ordinary and partial differential equations, and fundamentals of probability and statistics will be covered with solution methods for practical examples.
2- 2 - APPLIED MECHANICS OF MATERIALS
- Lectures on the elastic deflection of the beams, statically indeterminate beams, coordinate transformations of stresses and strains, combined loadings, structural instability of the columns, plastic behavior of materials, and energy methods are dealt in order to study the mechanics of materials.
2- 2 - APPLIED THERMODYNAMICS
- Lectures on the analysis of thermodynamic cycles such as vapor cycles, gas cycles and refrigeration cycles, thermodynamic relations, mixtures and air conditioning, combustion and chemical equilibrium.
2- 2 - DYNAMICS
- Lectures on kinematics and dynamics of a particle, work and energy principle, impulse and momentum principle, dynamics of a system of particles, and rigid body dynamics.
2- 2 - FLUID MECHANICS
- Lectures on the concept of continuum mechanics, the definition of fluid properties, hydrostatics, fluid dynamics, dimensional analysis, similarity, Navier-Stokes equations, momentum theory, pipe flow, inviscid flow, boundary layer, flow separation, and the airfoil theory.
2- 2 - MANUFACTURING PROCESSES
- general introduction of manufacturing processes, recent trends, material properties, surface treatments, metrology, casting, plastic workings, machining processes, abrasive processes, welding etc.
- 3-1,2
CurriculumThis table demonstrates the curriculum accroding to academic year. 3- 1 - APPLIED FLUID MECHANICS
- This subject deals with the gasdynamics (compressible flow) and design of several fluid machinery systems. Students can understand the advanced fluid mechanics and design procedure of fluid machinery systems
3- 1 - HEAT TRANSFER
- Fundamentals of heat transfer including steady conduction, transient conduction, forced and free convection, thermal radiation, boiling and condensation.
3- 1 - KINEMATICS
- Both graphical and analytical methods for the analysis of planar linkage systems, cams and gears will be covered in depth. A brief introduction to the numerical methods for some simple planar mechanisms will be given. Also topics on the kinematic synthesis will be included.
3- 1 - MECHANICAL ENGINEERING EXPERIMENT(1)
- Engineering laboratory to characterize the material's properties with beam, strain gauge and photoelastic method and to find the mechanical properties of strength and hardness with various testing machines.
3- 1 - NUMERICAL ANALYSIS
- Numerical Analysis is a blend of mathematics and computer science that has produced powerful tools for solving intractable problems in science and engineering. This course covers error analysis, solution of equations of one variable, interpolation and polynomial approximation, numerical integration and differentiation, numerical solution of initial problems, direct & iterative methods for solving linear systems, solutions of systems of nonlinear equations, approximation theory and approximating eigenvalues, numerical methods for partial differential equations.
3- 1 - DESIGN OF MACHINE ELEMENTS I
- Design of shaft, shaft coupling, journal and bearing, brake, spring, fly wheel, belt, rope gearing, chain, cam, gear, and friction gearing, etc.
3- 1 - MECHANICAL VIBRATION
- An introduction to the theory of mechanical vibrations including topics of harmonic motion, free and forced vibrations, influences of damping, resonance, transient excitation. Normal modes of multi-degree-of-freedom and continuous systems.
3- 2 - COMPUTER-AIDED MEASUREMENT AND CONTROL
- Fundamental knowledge of the electrical and electronic engineering is becoming a must for an engineering students in many different majors. In this respect, the objective of this class is to give an introduction of the electrical and electronic engineering fundamentals to the students majoring in the chemical engineering and technology.
3- 2 - DESIGN OF MACHINE ELEMENTS II
- Design of mechanical system means the design of things and systems ofa mechanical nature-machines, products, structures, devices, and instruments, and deals with the creation of machinery that works safely, reliably and well.
3- 2 - DESIGN OF MANUFACTURING PROCESS FOR CHASSIS 1
- Design of Manufacturing process for chassis 1 is compulsory subject for the student who want to complete the coursed in the Sewon track. The field engineers from Sewon and a professor from school of mechanical engineering will teach together. This is a kind of University-Industry cooperation course. The car bodies called chassis are produced through several stages of manufacturing. Every stage needs to be understood by the designer. This subject is first step for the students who will study process of manufacturing the car bodies.
3- 2 - FINITE ELEMENT METHOD FOR DESIGN
- This course includes lectures on basic theories of Finite Element Method, instruction on how to use commercial FEM programs and applications to practical problems by term projects.
3- 2 - MECHANICAL ENGINEERING EXPERIMENT(2)
- Basic principles of thermal engineering : thermocouple compensation, measurement of heating values, heat transfer, heat balance of boiler, gasoline engine, diesel engine, heat pump, refrigeration system performance test. Basic principles fluid engineering : measurement of viscosity, Bernoulli principle, impinging jets, Reynolds number, pipe friction, blower performance, drag and lift.
3- 2 - ROBOTICS
- Students can understand the basics of robotics and computer vision system. They can use these subject for the design of future robots and automated systems.
3- 2 - TEACHING MATERIALS AND TECHNIQUES FOR ENGINEERING EDUCATION
- Selected formulations of instruction and teaching-learning process applicable to technical high school and general high school based on curriculum for the subject of technical education. Also this lecture provides opportunity for the student to make teaching plan, teaching materials and evaluation, teaching method, and skills in the field to improve attainments as a teacher of high school.
3- 2 - MECHANICAL ENGINEERING PROJECT I(CAPSTONE DESIGN)
- Design of an engineering system. Design factors include efficiency, economy, safety, reliability, and social impact. Final report of engineering specifications and drawings to be presented by design teams.
- 4-1,2
CurriculumThis table demonstrates the curriculum accroding to academic year. 4- 1 - AUTOMATIC CONTROL
- The aim of the this course is to provide opportunity to study the basic of feedback control systems. This course deals with modeling of dynamic system, signal flow graph, state equation, characteristics and performances of the feedback control system, simple stability analysis of linear system using Routh-Hurwitz method, root-locus techniques, frequency response techniques, stability of frequency domain and design of feedback control system. And design controller using modern control theories - design of the linear quadratic optimal control in state space, pole placement control, robust control - will be introduced.
4- 1 - DESIGN OF MANUFACTURING PROCESS FOR CHASSIS 2
- The students who pass the Design of Manufacturing process for chassis 1 can enroll in this course. This course is also compulsory for the students who are in Sewon track. Based on the basic design knowledge from the course 1, the advanced knowledge will be taught. The overall process for manufacturing process including robot, welding, automation, plasticity, and etc will be lectured.
4- 1 - ENGINEERING EDUCATION THEORY
- Selected theories of engineering education that have application to technological high school, cooperative education between industries and school, career guidance or vocational guidance and evaluation of engineering education are explored and evaluated in this course.
4- 1 - MACHINE TOOLS
- Cutting theories and mechanisms are introduced in order to understand cutting process. Based on the cutting principle, we design the machine tools. To this end, we study the units of machine tools such as machine tool spindle, guideways, frame, lubrication, etc. urthermore, we study the principle of NC machine tools, and practice NC machining with educational NC machine tools.
4- 1 - NANOTECHNOLOGY
- This subject deals with nano-technology. Professor will introduce the methods and samples related to nanometric materials.
4- 1 - SPECIAL LECTURES BY INDUSTRY LECTURERS
- This course is composed of scheduled seminars given by lecturers from industries. The objective of the course is to introduce the students with the specific job environments of and required abilities for the compnaies in the electro-mechanical fields. It is expected that this course will help students in preparing for their potential jobs in related fields.
4- 1 - MECHANICAL ENGINEERING PROJECT II(CAPSTONE DESIGN)
- Continuing course of Mechanical Engineering Project Ⅰ. Fabrication of designed engineering system and assessment through exhibition. Final report is thesis of B.S.
4- 2 - ADVANCED COMPOSITION MATERIAL ENGINEERING
- Students can understand the composite materials and can design some part using these new materials.
4- 2 - INTRODUCTION TO AUTOMOBILE ENGINEERING
- Lectures on the effects of automobile on the human society and environment, the structures, functions and fundamental knowledges for technical design of parts, maintenance and rightful usage.
4- 2 - LOGICAL THINKING AND WRITING SKILLS IN ENGINEERING
- In this course, the students in educational study for engineering field will be trained about logical thinking and writing abilities.
4- 2 - PNEUMATIC AND HYDRAULIC ENGINEERING
- The core of the 4th industry is a smart factory, and the most basic of a smart factory comes from factory automation. Factory automation is implemented mainly by actuators using hydraulic or pneumatic power. In order to design and use this, it is necessary to understand the principle of various actuators moving by fluid pressure. Also, the design ability of the hydraulic circuit to control the system should be cultivated by using it. For this purpose, the course focuses on key components such as pneumatic and hydraulic pumps, hydraulic motors, hydraulic cylinders, directional control valves, pressure control valves, flow control valves, servo valves and proportional control valves. In addition, these elements will be used to teach the design of a basic hydraulic circuit that is widely used in real automation
4- 2 - RELIABILITY ENGINEERING
- Reliability Engineering is an engineering which deals with reliability. Reliability means ability to function at a specific condition, moment and interval of time. Students learns basic statistics, statistical analysis method, 6 Sigma theory, experimental design based on minitab program which are useful in mechanical engineering industries.
4- 1,2 - FIELD EDUCATION PRACTICE
- The objective of this program is to improve student's ability of industrial application through two-week field education practice during vacation.
Contact
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+82-53-810-4627