For more details on the courses, please refer to the Course Catalog
| Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
|---|---|---|---|---|---|---|---|---|---|
| EAM2057 | Introduction to Advanced Materials Engineering 1 | 3 | 6 | Major | Bachelor | 2 | English,Korean | Yes | |
| This course provides fundamental approach for understanding all the types of materials. Specifically, atomic structure and bonding, structures of metals and ceramics, and polymer, imperfections in solids and diffusion will be introduced. In addition, mechanical properties, phasse diagrams and phase transformations will be studied. | |||||||||
| EAM2058 | Introduction to Advanced Materials Engineering 2 | 3 | 6 | Major | Bachelor | 2 | English,Korean | Yes | |
| The class aims to introduce the basic properties of materials. Specifically, electrical properties such as electrical conductivity, semiconductor, and dielectric properties will be studied. In addition, types and applications of materials, corrosion and degradation of materials, and thernal, magnetic, and optical properties of materials will be introduced. | |||||||||
| EAM2059 | Basic Experiments of Material & Chemical Processing | 3 | 6 | Major | Bachelor | 2 | - | No | |
| ● Fundamental experiments and understanding for materials processing and properties - Basic Experiments of chemical processing with organic and inorganic materials - Basic Experiments of material properties with organic and inorganic materials | |||||||||
| EAM2060 | Nanoscale Properties of Materials | 3 | 6 | Major | Bachelor | 2-3 | - | No | |
| This lecture is designed for understanding of nanoscale properties of materials. This lecture would link to relevant classes such as modern physics for 2nd year students and solid-state physics for 3rd year students. Students will learn about electrical, magnetic, mechanical, thermal, optical, and fluidic properties for materials at the nanoscales. In addition, they will be able to understand how to use nanoscale properties of materials for nanotechnology applications. | |||||||||
| EAM2061 | Basic Experiments in Materials Science | 3 | 6 | Major | Bachelor | 2 | Korean,English | Yes | |
| This course is intended to provide the students who entered in the School of Materials Science and Engineering a hands-on experience on basic knowledge of materials science. The most basic experiment in the material field, such as crystal structure assembly and microstructure observation will be conducted. | |||||||||
| EAM2062 | Electroceramic Materials | 3 | 6 | Major | Bachelor | 2-3 | Korean | Yes | |
| This subject covers crystalline structure of conventional and newly investigated electroceramic materials, point defects (doponts), physical properties (semiconducting and transport phenomena) of electroceramic materials. This subject is intended to provide basic knowledge in the field of electroceramic materials. | |||||||||
| EAM3002 | Mechanical Properties of Advanced Materials | 3 | 6 | Major | Bachelor | 3-4 | Korean,English,Korean | Yes | |
| Fundamentals of mechanical properties and their relating variables will be studied. Specifically, relationship between stress and strain, fundamental theory of elastic and plastic behavior, and plastic deformation will be understood. In addition, relationship between mechanical properties of materials and their microstructure and defects such as dislocation, vacancy, and grain boundary will be characterized. Finally, measurements of mechanical properties such as hardness, strength, elastic modulus, and fracture toughness, fatigue and creep phenomena, and creep resistant materials will be studied. | |||||||||
| EAM3003 | Phase Transformation | 3 | 6 | Major | Bachelor | 3-4 | Korean | Yes | |
| Thermodynamics and kinetics of phase transformations, phase transformation mechanisms, phase change in metals and alloys, massive and order-disorder transformations, martensitic transformation, and precipitation hardening. | |||||||||
| EAM3027 | Physics of Engineering Materials | 3 | 6 | Major | Bachelor | 3-4 | English | Yes | |
| This class will deal with the origins of basic physical properties which are required to understand physical properties of solids. First of all, the periodicstructural properties of solids characterized by Bravais lattice and category of materials showing similar periodic structures will be discussed. After that,phonon and its dispersion relationship resulting from the periodic structural properties will be discussed. Schrodinger equation, band gap theory and Brillouin zone for metals and semiconductors, physical properties and electricalproperties of semiconductors, local field of dielectric materials, etc. will be also discussed to drive physical constants of solid which are the basic properties of solids alng with their relationships. | |||||||||
| EAM3036 | Oxide Electronics | 3 | 6 | Major | Bachelor | 3-4 | - | No | |
| In many electronics employing conventional semiconductor and related materials, there have several limits for realizing electronic and/or optical devices with high performance. Many efforts to improve the performance or provide new functionality have been made by utilizing various physical properties of metal-oxide, which is recently called oxide electronics. Therefore, various physical properties of metal-oxide such as conductor, semiconductor, ferroelectrics, ferroelectrics, non-linear optics will be introduced. Moreover, various applications of the metal-oxide will be introduced to electronic, magnetic and photonic devices. | |||||||||
| EAM3038 | Thin Film Processing | 3 | 6 | Major | Bachelor | 3-4 | English | Yes | |
| This class will teach thin film fabrication methods such as physical vapor deposition and chemical vapor deposition methods which are used to fabricate thin films within the range of a few microns. After the fabrication methodology,effects of process conditions on electrical, physical, chemical, and mechanical properties will be discussed in details. Along with these properties, surface and thin film characterization tools, such as Auger, XPS, SIMS, RBS, and TEM will be discussed for their applicability to various thin films. Basic theorieson vacuum techniques, vacuum pumps and vacuum measuring equipments also will be discussed in the class. | |||||||||
| EAM3039 | Sintering Process | 3 | 6 | Major | Bachelor | 3-4 | - | No | |
| Solid and liquid state reaction, and material transfer phenomena such as diffu- sion are covered to understand the principle of ceramic manufacturing process. Power preperation, compacting and shaping, solid state sintering and liquid phase sintering are included. | |||||||||
| EAM3046 | Introduction to Advanced Materials Design | 3 | 6 | Major | Bachelor | 3-4 | - | No | |
| For the development of new advanced materials, designing and processing of materials based upon the theoretical understanding of mechanical, electrical, and other physical properties, are strongly requested. In this class, basic designing procedure and theoretical understanding of relationships among composition/microstructure/processing techniques are covered. | |||||||||
| EAM3048 | nano-advanced materials | 3 | 6 | Major | Bachelor | 3-4 | Korean,English | Yes | |
| This lecture introduces the structures, kinds and properties of nano materials, and illustrates their processing methods and applications. The discussion will be made on the changes of properties in relation to heat treatment and processing methods. | |||||||||
| EAM3049 | Semiconductor device processing | 3 | 6 | Major | Bachelor | 3-4 | English,Korean | Yes | |
| Semiconductor device processes will be introduced by reviewing various SC-device and device fabrication. | |||||||||