Major in Advanced Metals and Materials Engineering
21st Century is the age of Advanced Metals and Materials!
More various kinds of Materials, more diverse functions, and more diverse application fields...
History of mankind generally classified into the Stone Age, the Bronze Age, and the Iron Age, and so materials which used in each age were the criterion of the classification. In that respect, it is not too much say that we are still living in the Metal Age and the advanced metal and materials will continuously take charge of important role in the history of mankind. Therefore, it is important to develop the advanced metal and materials and it will make our country as one of the most competitive industrialized countries in 21st century.
• Advanced Metal and Materials Engineering is a discipline based on the basic science such as physics and chemistry and on the applied engineering to a variety of industrial fields by means of the design, the manufacturing, and the processing of materials.
• Advanced Metal and Materials Engineering is concerned with controlling the interatomic bonding or combination, altering the manufacturing processes, and investigating the relationship between the microstructure and properties of materials to develop materials suitable for applications, and so it plays a role as a bridge between science and engineering and supplies core technology to modern technology.
● Goal of Education
Advanced metal and materials are the basis of all of the industry, and their importance has been emphasized as a key technology field of NT, IT, ET, and BT industries in modern society. Department of Advanced Metal and Materials Engineering aims to train professionals in metal and materials engineering by raising the creative thinking of nature and engineering through the understanding of the basic knowledge of materials science, materials evaluation, and materials technology and by fusing the theory and techniques to be applied to the industrial field. Therefore we offer students the substantial and efficient curriculum which consists of the basic knowledge of materials, the design of materials, the manufacturing process of materials, the evaluation of materials, the computer simulation of materials, and so on.
● Objectives of Education
․ Training professionals in metal and materials engineering equipped with the creative and challenging thought by educating the knowledge of advanced metal and materials engineering.
․ Training professionals in metal and materials engineering equipped with the practical skills and expertise that are needed to local industries by offering practical training and field technologies.
․ Training professionals in metal and materials engineering equipped with the upright personality and the global mind by providing general education such as humanities and social sciences, foreign languages, informatization, and so on.
● Faculty
| Name |
Research Interests |
Phone |
|
| Jae-Ho Choi |
Sensitive Material, Layered Manufacturing, Computer Simulation |
+82-33-640-2364 |
cjh@gwnu.ac.kr |
| Seok-Hong Min |
Thin Film Materials, Nano Materials, Material Properties Evaluation |
+82-33-640-2481 |
shmin@gwnu.ac.kr |
| Hyo-Tae Jeong |
Texture, Plastic Deformation, Computer Simulation |
+82-33-640-2482 |
htjeong@gwnu.ac.kr |
| Won-Yeol Choi |
Electronic Materials and Devices, Nanomaterials, Sensors and Bio Applications |
+82-33-640-2483 |
cwy@gwnu.ac.kr |
| Tae-Kwon Ha |
Characteristics of Superplasticity, Special Alloy, High Temperature Deformation |
+82-33-640-2368 |
tkha@gwnu.ac.kr |
| Jung-Ho Shin |
Deformation Behavior of Materials, Defect Control, High Performance Materials |
+82-33-640-2485 |
junghos@gwnu.ac.kr |
● Professor Emeritus
| Name |
Research Interests |
Phone |
|
| Byeong-Hak Choi |
Failure Analysis, Phase Transformation, Materials Characterization |
|
cbh@gwnu.ac.kr |
● Laboratory Activity
Department of Advanced Metal and Materials Engineering offers undergraduate students the opportunity to join a professor's laboratory and to have experience of doing researches under the supervision of the professor. As a member of laboratory, students can also participate in industry-academic collaboration programs such as research projects, internship, and so on, thereby having a chance to learn practical skills that are demanded by industries or research centers.
● Curriculum
| Course Code |
Course Title |
Credit |
| 500.007 |
Design and Exercises for Advanced Materials |
3-3-0-0 |
| 562.0005 |
Advanced Materials Characterization Laboratory |
3-0-6-0 |
| 562.0006 |
Advanced Materials Processing Laboratory |
3-2-2-0 |
| 562.0007 |
Advanced Materials fabrication Laboratory |
3-3-0-0 |
| 562.0008 |
Introduction to particulate materials |
3-3-0-0 |
| 562.0009 |
Advanced Materials Application Laboratory_Capstone Design |
2-2-0-0 |
| 562.001 |
Computer Programming |
3-2-2-0 |
| 562.0010 |
Advanced Materials Application Laboratory_Capstone Design |
1-0-2-0 |
| 562.0011 |
Capstone Design cooperated with industriesⅠ |
3-3-0-0 |
| 562.0012 |
Capstone Design cooperated with industriesⅡ |
3-3-0-0 |
| 562.0013 |
General Physics and Experiments |
2-2-0-0 |
| 562.0014 |
General Physics and Experiments |
1-0-2-0 |
| 562.206 |
Imperfections in Metals |
3-3-0-0 |
| 562.219 |
Metallic Materials |
3-3-0-0 |
| 562.223 |
Thermodynamics |
3-3-0-0 |
| 562.224 |
Introduction to Materials Science and Engineering |
3-3-0-0 |
| 562.227 |
Principle of Materials Science |
3-3-0-0 |
| 562.230 |
Non-ferrous Alloys |
3-3-0-0 |
| 562.252 |
Engineering Mathematics |
3-3-0-0 |
| 562.303 |
Phase Transformation |
3-3-0-0 |
| 562.313 |
Mechanical Properties of Materials |
3-3-0-0 |
| 562.315 |
Crystal Structure |
3-3-0-0 |
| 562.321 |
Fracture Materials |
3-3-0-0 |
| 562.334 |
Surface Science |
3-3-0-0 |
| 562.335 |
Computer Simulation og Manufacturing Processes |
3-2-2-0 |
| 562.336 |
Numerical Analysis in Materials ScienceⅠ |
3-2-2-0 |
| 562.338 |
Numerical Analysis in Materials ScienceⅡ |
3-2-2-0 |
| 562.339 |
Ferrous Materials |
3-3-0-0 |
| 562.413 |
Materials Forming Processes |
3-3-0-0 |
| 562.415 |
Surface Treatment |
3-3-0-0 |
| 562.425 |
Semiconductor Processes |
3-3-0-0 |
| 562.426 |
Thin film Engineering |
3-3-0-0 |
| 562.436 |
Capstone Design for Advanced Materials |
3-3-0-0 |
| 562.441 |
Materials and Capstone Design |
3-3-0-0 |
| 562.450 |
Technology in Materials Industry |
3-2-2-0 |
| 562.452 |
Research and Evaluation on Materials |
3-3-0-0 |
| 562.453 |
Metallic Materials Education |
3-3-0-0 |
| 562.454 |
Logic and Discourse in Metallic Materials Education |
2-2-0-0 |
| 562.455 |
Studies in Teaching & Methodology of Metallic Materials Education |
3-3-0-0 |
| 562.456 |
Advanced Materials Processing Capstone Design |
3-3-0-0 |
| 562.457 |
Materials Property and Processing |
3-3-0-0 |
| 562.458 |
Advanced Structural Materials |
3-1-4-0 |
| 562.459 |
Physics of electronic materials |
3-3-0-0 |
| 562.460 |
Experiments in Nanomaterials |
3-3-0-0 |