School of Material Science and Engineering
Department of Materials Science and Engineering
College Homepage: http://eng.jnu.ac.kr/eng
Homepage: http://mse.jnu.ac.kr/eng
The educational goals of the school of materials science and engineering is to cultivate engineers who are both experts and humanitarians, have creativity, and acquire experience through the reinforcement of experimentation and practice.
Undergraduate students study basic science to understand the properties of matter at new sites, manufacturing processes and properties, and applications of new material. The School of Materials Science and Engineering (SMSE) consists of three majors: metallurgical engineering, ceramic engineering, and opto-electronic materials engineering.
A great deal of effort is made to foster outstanding engineers through the improvement of educational procedures and the environment, cooperation with industry, high- level research, field-oriented experiment/ practice, education projects, job placement services, and outstanding freshmen recruiting projects.
Course list
Materials Science and Engineering
- Major Courses
- General Chemistry 1
- General Physics 2
- Introduction to Materials Science and Engineering
- Material Science
- Mathematics 1
Metallurgical Engineering Major Courses
- Composite Materials
- Corrosion and Protection Engineering
- Electronic Properties of Materials
- Engineering Mathematics
- Ferrous Alloys
- Ferrous Production Metallurgy
- Foundry Engineering
- Fracture in Materials
- Functional Materials
- Graduate Thesis Project
- High Performance Structural Materials
- Instrumental Analytical Methods
- Introduction of the Bio-material Engineering
- Light Metal Processing and Design
- Mechanical Metallurgy
- Mechanics of Materials
- Metallurgical Engineering Project 1, 2, 3
- Nondestructive Testing
- Nonferrous Materials
- Phase Transformations in Metals
- Physical Chemistry
- Plastic Working of Metals
- Powder Metallurgy
- Solidification Theory and Design
- Structure and Defects in Solids
- Structure and Properties of Metals
- Surface Engineering
- Text Research and Teaching Methodology in
- Mechanical and Metallurgical Engineering Education
- Quality Control and Management
- Text Research and Teaching Methodology in
- Ceramic Engineering Education
- Theories of Teaching in Ceramic Engineering Education
- Thermodynamics in Materials
- X-ray and Electron Diffraction
Opto-Electronic Materials Major Courses
- Biomedical Optics
- Electro-magnetics
- Electronic Circuit and Design
- Electronic Display Engineering Electronic Materials
- Electronic Properties of Materials
- Engineering Mathematics
- Experimental Designs
- Graduate Thesis Lab
- High Performance Structural Materials
- Instrumental Analytical Methods
- Introduction to Electrical and Electronic Engineering
- Laser Engineering
- Mechanical Metallurgy
- Theories of Teaching in Mechanical and
- Metallurgical Engineering Education
- Thermodynamics in Materials
- Thin Film Process Engineering
- Welding and Micro-bonding
- X-ray Diffraction in Materials and Lab
Ceramic Engineering Major Courses
- Bio-ceramics
- Cement and Concrete
- Ceramic Chemistry
- Ceramic Compositional Materials 1, 2
- Ceramic Engineering
- Ceramic Engineering Project 1, 2, 3
- Ceramic Graduate Thesis Project
- Ceramic Raw Materials
- Ceramic Test and Calculation Lab
- Ceramics in Energy Applications
- Combustion Engineering
- Crystallography
- Engineering Mathematics
- Environmental and Porous Materials
- Experimental Designs
- Firing Materials
- Fluid Flow and Heat Transfer
- Functional Carbon Materials
- Glass Engineering
- High Performance Structural Materials
- High Temp Structural Materials
- Instrumental Analytical Methods
- Introduction to Electronic Circuits
- Laboratory Automation in Ceramic
- Engineering
- Materials and Computer
- New Ceramic Process
- Organic Chemistry
- Phase Equilibria
- Physical Chemistry
- Optical Communications Engineering
- Optics
- Optics Lab
- Opto-electronic Materials
- Optoelectronics Device Engineering
- Phase Transformations in Metals
- Photonics and Electronic Materials Processing
- Lab
- Physical Chemistry
- Practical Materials for Optics and Photonics
- Quantum Mechanics
- Semiconductor Device Design
- Semiconductor Device Physics
- Semiconductor Materials and Processing Lab
- Semiconductor Materials and Processing
- Sensor Engineering
- Solid State Physics
- Structure and Defects in Solids
- Thermodynamics in Materials
- Thin Film Devices
- Thin Film Process Engineering