Course Name
Course number
Language
Credts
Branch
Course outline
Basics of MEMS Processes and Understanding Device Application
3
Korean course
Major
본원
-
Course Name
Basics of MEMS Processes and Understanding Device Application
Summary
Lecture Objectives
- This class will provide basic knowledge of photolithography technique and packaging processes for fabrication of MEMS and devices, and application theory for developing practical devices. Major topics of this class are as follows.
- Understanding of major materials such as silicon and photoresist
- Theory of photolithographoy
- Understanding of fabrication process for micro- and nano structures
- Experiments and practices on photolithography and replication (May be skipped according to the situations)
- Measurement and evaluation of the results of the processes: theories and practice (May be skipped according to the situations)
- Understanding and fundamentals of packaging process
- Fundamentals about rheology for advanced packaging process
Physical Chemistry
3
Korean course
Major
본원
-
Course Name
Physical Chemistry
Summary
Lecture Objectives
- The class covers basic topics of physical chemistry such as equilibrium, preservation and delivery of heat and materials, chemical reactions. and tries to cultivate the understanding of physical and chemical principles applicable to the problems of mechanical engineering.
Elementary Physics of Solid
3
Korean course
Major
본원
-
Course Name
Elementary Physics of Solid
Summary
Lecture Objectives
- This course will discuss reciprocal
lattice formulation, electronic
conductivity, thermal conductivity,
semiconductor behavior. Other
physical properties and phenomena
observed in nanostructures will be
examined in this course. Elementary
quantum mechanics will be used to
understand material properties.
Introduction and Basic of Nanomechatronics
3
Korean course
Major
본원
-
Course Name
Introduction and Basic of Nanomechatronics
Summary
Lecture Objectives
- This lecture introduces nanomechatronics technology include various nanopatterning lithography technologies i.e. nanoimprint, e-beam, STMs, Ion-beam, soft and micro contact printing, X-ray, interference lithographies, etc and focuses on acquiring knowledges of the nanomechatronics technology for nanoelectronics devices, nanosensors, flexible display, medical and biological devices. Lecture scopes are as follows;- Nanopatterning lithography process and systems- Nano-biological-medical applications, and 3D bioprinting applications in tissue engineering- Energy storage devices and materials using nanotechnology- Laser photochemical processing for various application- Inkjet Printing Systems and Applications- Fabrication of plastic nano/micro-fluidic devices, etc
Nano Thin Film Engineering
3
Korean course
Major
본원
-
Course Name
Nano Thin Film Engineering
Summary
Lecture Objectives
- 이 강의는 나노박막 형성을 위한 진공 박막 증착을 이용한 코팅 공정에 대한 이해를 높이고, 최신 진공 코팅 장비기술을 파악한다./The purpose of this lecture is to understand the vacuum coating process for nanoscale thin film growth and to provide information of recently developed vacuum coating system
Nanopatterning Lithography and Material Applications
3
Korean course
Major
본원
-
Course Name
Nanopatterning Lithography and Material Applications
Summary
Lecture Objectives
- This lecture introduces various nanopatterning technologies, including nanoimprint lithography technology, and focuses on acquiring knowledge of the nanopattern manufacturing process and learning about device applications. In addition, it is intended to introduce the characteristics of nanopatterning and surface treatment materials and to help understand the improvement of release and adhesion.
Air Pollution Control Engineering
3
Korean course
Major
본원
-
Course Name
Air Pollution Control Engineering
Summary
Lecture Objectives
- It is the purpose of this course for students 1) to understand physical and chemical characteristics about fine and ultrafine particles and gas phase pollutants such as NOx (Nitrogen Oxides), SOx (Sulfur Oxides), and VOC (Volatile Organic Compounds) in exhaust gas from various industries such as internal combustions, thermal power plants, and manufacturing industries, for example, steel, chemistry, semiconductor etc, and 2) to learn professional knowledges how to remove those pollutants efficiently, how to design and operate the removal technologies, and how to analyze their performances. In particular, it is possible for the students to study various theories and fundamentals related to fine and ultrafine particles which become one of the biggest social issues in the world, and also to learn selective catalytic reduction (NOx), electrostatic precipitation and filtration (PM2.5, PM10), and wet scrubbers (soluble gas pollutants) in detail to design and operate in real fields.
Laser Processing Machine and Laser Process
3
Korean course
Major
본원
-
Course Name
Laser Processing Machine and Laser Process
Summary
Lecture Objectives
- This course aims to study laser processing machine (which includes laser source, optics, control, monitoring and etc) and laser-material interaction during a various process (which includes welding, cutting, drilling and etc). After the course, we expect the students are ready to use a laser processing machines and develop a key component of the machine.
Introduction to Robotics
3
Korean course
Major
본원
-
Course Name
Introduction to Robotics
Summary
Lecture Objectives
- This course includes the general overview of the robot systems such as types and components of the robot / the coordinate system, vector representation, matrix transformation theory for analysis and design of the robot system
/ position-based robot kinematics and workspace analysis / dynamics of the robot systems based on velocity and acceleration / trajectory planning according to the coordinate systems / robot position, force control theory and so on.
Robot Systems and Application
3
Korean course
Major
본원
-
Course Name
Robot Systems and Application
Summary
Lecture Objectives
- This course covers various robot systems by robot types and application fields to improve understanding of robotics theory and technology.
This includes cooperative robots (human-robot cooperation), dual arm robots, parallel robots, assembly robots and so on.
Introduction to Plasma Engineering for Semiconductor Manufacturing
3
Korean course
Major
본원
-
Course Name
Introduction to Plasma Engineering for Semiconductor Manufacturing
Summary
Lecture Objectives
- This course introduces the overview of plasma technology for semiconductor and display manufacturing industry. Fundamentals of plasma physics and chemistry are dealt with various types of plasma sources, such as low-pressure plasmas, atmospheric-pressure cold plasmas and thermal plasmas. Topical review of plasma processing is addressed for electronics manufacturing, such as plasma-enhanced chemical vapor deposition and reactive-ion etching.
Engineering Technologies of Power Generation System
3
Korean course
Major
본원
-
Course Name
Engineering Technologies of Power Generation System
Summary
Lecture Objectives
- The overview of fundamentals for analysis and design of power generation system are inclued in this lecture. Based on this lecture, students can have a capability to analysis of system engineering technologies such as coal power plant, combined power plant, fuel cell and CCS, S-CO2 and new concept power generation plant.
Industrial Applied Mathematics
3
Korean course
Major
본원
-
Course Name
Industrial Applied Mathematics
Summary
Lecture Objectives
- The aims of this course is to study various mathematical techniques for thermal fluid research field. The lectures of numerical analysis, ordinary and partial differential equations, vectors and complex numbers, special functions and boundary value problems will be provided.
Introduction to Reliability Engineering
3
Korean course
Major
본원
-
Course Name
Introduction to Reliability Engineering
Summary
Lecture Objectives
- In this lecture, learn the basic theory of reliability engineering, which is increasingly important as a key factor in manufacturing competitiveness in various industries, and evaluate the reliability of machinery parts and systems by utilizing qualitative/quantitative reliability analysis methods. The main goal of this lecture is to cultivate engineering ability to establish reliability test design and evaluation plans, and the main lecture contents are as follows.
- Introduction of probability and statistical theory
- Qualitative and quantitative reliability analysis methods (FMEA/FTA)
- Life test evaluation and failure data analysis, reliability test planning
- Life estimation, maintenance and reliability of mechanical parts and systems, Design of
accelerated life test.
Introduction to Energy Plant Engineering
3
Korean course
Major
본원
-
Course Name
Introduction to Energy Plant Engineering
Summary
Lecture Objectives
- Main process and equipment for several plants such as energy conversion and carbon utilization plant, hydrogen liquefaction plant, desalination plant and hydraulic power generation system are introduced based on thermo-fluid mechanics. Plant reliability and safety design concept are also given so that students can understand the general aspect for plant design.
Design and System Engineering of Fuel Cells
3
Korean course
Major
본원
-
Course Name
Design and System Engineering of Fuel Cells
Summary
Lecture Objectives
- This lecture aims for the students at providing the fundamentals and system engineering capability for the fuel-cell-based power generation systems. Among several types of fuel cell, this lecture focuses on the solid oxide fuel cell (SOFC) system, primarily targeting the distributed power generation application. Lectures are divided into three parts, fundamentals of fuel cell, cell/stack design and manufacturing, systems design, analysis, and BOP.
Advanced Combustion
3
Korean course
Major
본원
-
Course Name
Advanced Combustion
Summary
Lecture Objectives
- 연료와 산화제를 반응시켜 열과 빛을 발생하는 연소현상을 물리화학적으로 분석하고 고체, 액체, 기체 연료의 연소현상을 이해하며 연소이론을 연소기기에 응용하는 방법에 대해 학습함. / This course handles microscopic combustion phenomena considering chemical reaction between solid, liquid & gas fuels and oxidizers and introduces how to apply combustion theory to combustion devices
Introduction to Mechanical Engineering
3
Korean course
Major
본원
-
Course Name
Introduction to Mechanical Engineering
Summary
Lecture Objectives
- This lecture focuses on the current status of research in KIMM School's laboratories related to the three specializations: Nano-Mechatronics, Robot·Manufacturing Systems, and Environment·Energy Machinery, as well as technology trends and application cases in related fields. The main goal of this lecture is to help students gain an overall and broad understanding of the Mechanical Engineering Major and to cultivate the knowledge to conduct convergence research between different research fields.
- Current research status, technical trends and applications on Nano-Mechatronics
- Current research status, technical trends and applications on Robot·Manufacturing Systems
- Current research status, technical trends and applications on Environment·Energy Machinery
Applied Thermo-Fluid Dynamics
3
Korean course
Major
본원
-
Course Name
Applied Thermo-Fluid Dynamics
Summary
Lecture Objectives
- A lecture includes the fundamentals of thermodynamics, fluid dynamics and heat transfer for environmental and energy systems and applications of the fundamental knowledges to real systems.
Introduction to Printed Electronics
3
Korean course
Major
본원
-
Course Name
Introduction to Printed Electronics
Summary
Lecture Objectives
- This lecture aims to provide the basic understanding about printed electronics. In particular, printing machine system and ink material will be introduced as basic techniques of printed electronics.
Fundamentals of Materials Science
3
Korean course
Major
본원
-
Course Name
Fundamentals of Materials Science
Summary
Lecture Objectives
- This is an introductory course, designed to provide the fundamental concepts of materials science. Modern physics, periodic table, structure, diffusion, polymer, carbon, phase transformation, heat treatment, and physical properties of materials will be lectured.
Introduction to Precision Manufacturing Systems
3
Korean course
Major
본원
-
Course Name
Introduction to Precision Manufacturing Systems
Summary
Lecture Objectives
- This course is on the conceptual design and practical application of precision manufacturing equipment and systems (advanced machine tools, 3D printing equipment, semiconductor process equipment, etc.). Through studying concepts such as simulation, measurement and calibration, control, monitoring, and intelligent technology, the course focuses on field-oriented case studies to cultivate expertise in becoming professionals in this field.
Advanced Semiconductor Packaging Process and Equipment
3
Korean course
Major
본원
-
Course Name
Advanced Semiconductor Packaging Process and Equipment
Summary
Lecture Objectives
- This course aims to provide an introduction to the overall technology of advanced semiconductor packaging and an understanding of the trends of packaging process/equipment technology. In addition, in-depth learning will be performed to acquire principles, key element technologies, and applied equipment technologies for some key packaging processes.
Plasma Process
3
Korean course
Major
본원
-
Course Name
Plasma Process
Summary
Lecture Objectives
- The course introduces a variety of chemical reactions for applying the plasma from the principle of plasma, the method of generation. It also introduces the chemical process and environmentally related fields using plasma and introduces the role of plasma in these applications.