게시물검색
Course Name Course number Language Credts Branch Course outline
Advanced Metallic Materials 3 Korean course Major 본원 -
Course Name

Advanced Metallic Materials

Summary

Lecture Objectives

  • Explain the phase transformation in metals and alloys on the basis of the basic principles of thermodynamics, kinetics and diffusion. Apply the theories to the practical processes. Learning the theories and practices for understanding of deformation and fracture behavior of materials. Studying strengthening mechanism and metal plasticity and apply them to materials testing and process design.
Advanced Functional Materials 3 Korean course Major 본원 -
Course Name

Advanced Functional Materials

Summary

Lecture Objectives

  • This course aims to provide students with an overview of the manufacturing, characterization and applications of various functional materials with electric, magnetic, thermal, engineering, and bioactive properties.
Nano-Materials Engineering 3 Korean course Major 본원 -
Course Name

Nano-Materials Engineering

Summary

Lecture Objectives

  • This class covers the fundamental theories for functional nanomaterials including nanoparticles, 2D materials, 3D hybrid/composite materials. We also review the recent progresses of researches on nanomaterials for various cutting-edge technologies such as in IT, BT, and ET industries.
Bio-Convergence Materials Engineering 3 Korean course Major 본원 -
Course Name

Bio-Convergence Materials Engineering

Summary

Lecture Objectives

  • Introduction to different classes of biomaterials (polymers, ceramics, metals, and composites) and bio-sensors for diagnostics/detection in the medical field
Advanced Composite Materials 3 Korean course Major 본원 -
Course Name

Advanced Composite Materials

Summary

Lecture Objectives

  • This course provides an understanding of the fundamental concepts and design principles of composite materials, examining the properties of fiber and matrix constituents and their interaction mechanisms. Through theoretical instruction and case studies on mechanical behavior and manufacturing processes, students will develop competencies in process design and product development. Furthermore, case­based learning of various functional composites will deepen students’ insight into their application potential and industrial utilization.
Advanced Ceramic Processing 3 Korean course Major 본원 -
Course Name

Advanced Ceramic Processing

Summary

Lecture Objectives

  • Learning about the knowledge and experience regarding ceramic processing such as the powder synthesis ? dispersion ? shaping ? sintering and property analysis.
Energy Materials 3 Korean course Major 본원 -
Course Name

Energy Materials

Summary

Lecture Objectives

  • Learning about materials for energy production, storage, and conversion, including electrode materials for lithium-ion batteries, materials for next-generation batteries, water electrolysis technology for hydrogen production, and photovoltaic devices.
Biomedical Materials Engineering 3 Korean course Major 본원 -
Course Name

Biomedical Materials Engineering

Summary

Lecture Objectives

  • This course examines the structure-property relationships and application examples of biomaterials (polymers, hydrogels, metals, ceramics, etc.) used in medical and bioengineering fields; teaches both the theory and practice of tissue-engineering fabrication techniques such as 3D bioprinting, electrospinning, and soft lithography and surveys the latest trends in biomaterial development for tissue regeneration and diagnostic/therapeutic applications, enabling students to design and apply advanced hybrid biomaterials.
Advanced Materials Analysis 3 Korean course Major 본원 -
Course Name

Advanced Materials Analysis

Summary

Lecture Objectives

  • This course covers the principles and applications of XRD and electron microscopy, provides hands-on experience with analytical instruments from sample preparation to data interpretation and grants electron microscopy user certification upon completion.
Artificial Intelligence for Materials Science 3 Korean course Major 본원 -
Course Name

Artificial Intelligence for Materials Science

Summary

Lecture Objectives

  • Exploring the latest trends and fundamental principles of AI technology, and its application in the field of materials Science
Advanced Additive Manufacturing Processes 3 Korean course Major 본원 -
Course Name

Advanced Additive Manufacturing Processes

Summary

Lecture Objectives

  • This course provides in-depth theoretical and practical learning of the core processes in additive manufacturing. By studying the physical mechanisms of additive technologies, material properties, process parameters, and post-processing techniques―and by analyzing the latest research trends and industrial application cases―students will develop real-world problem-solving skills and the ability to apply interdisciplinary technologies.
Computational Materials Science 3 Korean course Major 본원 -
Course Name

Computational Materials Science

Summary

Lecture Objectives

  • This course develops competency in novel materials design and optimization by applying computational materials science theories and numerical methods such as quantum­mechanical calculations, molecular dynamics, and Monte Carlo simulations to understand and predict material structures and properties.
Surface Engineering 3 Korean course Major 본원 -
Course Name

Surface Engineering

Summary

Lecture Objectives

  • This class covers the surface treatment (vacuum/plasma/wet processes) technologies and the synthesis of functional surface materials for various applications. Introduction to electrochemical technologies used for testing of metallic corrosion, and surface treatments of metals for decoration and protection against corrosion and abrasion.
Advanced Surface Engineering 3 Korean course Major 본원 -
Course Name

Advanced Surface Engineering

Summary

Lecture Objectives

  • This course provides hands-on training in analytical techniques for a wide range of material surface properties including surface structure, chemical composition, corrosion resistance, hardness, friction and wear behavior, dielectric breakdown strength, interfacial contact resistance, color and light reflection/absorption/scattering, roughness, anti-fingerprint, hydrophobicity/hydrophilicity, and oleophobicity/oleophilicity through field-case-driven instruction that links each method to real-world applications.
Plasma Science and Engineering 3 Korean course Major 본원 -
Course Name

Plasma Science and Engineering

Summary

Lecture Objectives

  • To understand plasma technologies used for surface treatment of diverse materials, this course covers basic plasma physics, plasma generation sources, and the fundamental theory of dry surface treatment processes.
Advanced Alloy Design 3 Korean course Major 본원 -
Course Name

Advanced Alloy Design

Summary

Lecture Objectives

  • This course covers the theories and methodologies for developing new alloys with targeted properties or optimizing existing alloy performance from a materials engineering perspective, and trains problem-solving alloy-design techniques through in-depth understanding of thermodynamics, phase equilibria, microstructure-property relationships, and the use of computational materials-science tools.