日韓集中講義履修登録専用サイト

このサイトは東大とソウル国立大学工科大学による、日韓集中講義の履修登録専用サイトです。

This is the application website for the Short Intensive Course Program between UTokyo and Seoul National University (SNU).

Current course offerings (2021S2)

Current course offerings
(2021S2)

Students who would like to take the following courses need to download and complete the Application Form (Excel file), and submit it to the secretariat office via the email address below.

seut_global30.t[at]gs.mail.u-tokyo.ac.jp (please change [at] to @)

*Students who have already registered for the course listed below via UTAS don't need to submit this form.

You can view the course details clicking the link.

[S2] July 26-28, 2021 (3days)
Special Topic on Behavior of Zirconium-based Alloy Cladding: Lecturer:; Youho Lee, Associate Professor,; Department of Nuclear Engineering,; College of Engineering, Seoul National University; 学部 / Faculty ※4年生対象 / for B4; FEN-CO5966L2 国際連携工学特別講義VI; International Collaborators' Lecture on Engineering VI; 大学院 / Graduate School; 3799-386 国際連携特別講義XIII; International Collaborators' Special Lecture
on Engineering XIII; Click to download; View the course poster

Not offered this semester

Course details

[S2] July 26-28, 2021 (3days)

Special Topic on Behavior of Zirconium-based Alloy Cladding

Lecturer:

Youho Lee, Associate Professor,

Department of Nuclear Engineering, College of Engineering, Seoul National University

学部 / Faculty ※4年生対象 / for B4

FEN-CO5966L2 国際連携工学特別講義VI

International Collaborators' Lecture on Engineering VI

大学院 / Graduate School

3799-386 国際連携特別講義XIII

International Collaborators' Special Lecture on Engineering XIII

Date:: Mon, July 26 - Wed, July 28, 2021 (Intensive 3 days)
Time:: 9:00-12:30
Classroom:: Online using ZOOM; *Please check the lecture URL on ITC-LMS.
Language Used in Class:: English
Reference (Textbook):: In class presentation files and class notes
Grade Evaluation:: Homework: 90%, Attendance and attitude: 10%
Credits:: 1.0
Counterpart at UTokyo:: Takumi Saito,; Associate Professor, Department of Nuclear Engineering and Management; saito[at]n.t.u-tokyo.ac.jp; (please change [at] to @)

Purpose:: Nuclear fuel cladding is a crucial structural material that largely affects the design, operation, and safety of a nuclear reactor. This short-term graduate discusses behavior of Zircaloy in Light Water Reactors (LWRs) and its implications in reactor design, operation, and spent fuel behavior. Along with in-depth discussion of Zircaloy behavior and microstructural characteristics, this course introduces notable research trends and key remaining unknowns of Zr-based fuel cladding materials.
Objective:: This graduate course introduces in-depth discussion of Zircaloy cladding material's behavior during both steady states and accidents. The course is designed to equip graduate students with essential knowledge and skills to comprehensively understand integral aspects of nuclear fuel behavior and its implications on reactor design, operation, and safety.
Outline:: 1st day - Zircaloy Microstructure; 2nd day - Embrittlement and Mechanical Behavior of Zircaloy Cladding; 3rd day - Implications of Zircaloy Cladding Behavior on Reactor Engineering

Contact Information

If you have any questions about the registration procedures for these courses, feel free to contact us via the email as below, please.

Institute for Innovation in International Engineering Education, School of Engineering

seut_global30.t[at]gs.mail.u-tokyo.ac.jp (please change [at] to @)

Institute for Innovation
in International Engineering Education,
School of Engineering

seut_global30.t[at]
gs.mail.u-tokyo.ac.jp
(please change [at] to @)

Contact: H.Sugiura

Archives

You can view the past courses clicking the semester you need.

2020W

[2020W] January 27-29, 2021 (3days)

Mechanical properties of nanomaterials

Lecturer:

In-Suk Choi, Associate Professor,

Department of Materials Science and Engineering, College of Engineering, Seoul National University

学部 / Faculty

FEN-CO5961L2 国際連携工学特別講義V

International Collaborators' Lecture on Engineering V

大学院 / Graduate School

3799-380 国際連携特別講義XI

International Collaborators' Special Lecture on Engineering XI

Date:: Wed, January 27 - Fri, January 29, 2020 (Intensive 3 days)
Time:: 13:00-14:45, 14:55-16:40
Classroom:: Online using ZOOM; *Please check the lecture URL on ITC-LMS.
Language Used in Class:: English
Reference (Textbook):: Handouts and reference papers are provided at ITC-LMS
Grade Evaluation:: 30%Attendance, 70%Assignment
Credits:: 1.0
Counterpart at UTokyo:: Hirotaka Ejima,; Associate Professor, Department of Materials Engineering; ejima[at]g.ecc.u-tokyo.ac.jp; (please change [at] to @)

Purpose:: This course will introduce distinct mechanical properties of nanostructural materials.
Objective:: The course provides a theoretical basis of unique mechanical properties of nanostructural materials and their application. The course will also discuss the diverse methodologies of nanomechanical testing, simulation and characterization.
Outline:: Day 1: Mechanical properties of nanomaterials (overview); Day 2: Nanomechanics (Testing, characterization and simulation methodology); Day 3: Nanostructured Materials: Applications (Metallic nanomaterials and Ceramic nanomaterials)

View the course poster

[2020W] February 8-10, 2021 (3days)

Post-Tensioned Concrete Structures

Lecturer:

Thomas Kang, Professor,

Department of Architecture & Architectural Engineering, College of Engineering, Seoul National University

大学院/ Graduate School

3799-385 国際連携特別講義XII

International Collaborators' Special Lecture on Engineering XII

Date:: Mon, February 8 - Wed, February 10, 2020 (Intensive 3 days); +final examination Fri, February 12
Time:: 9:30-11:30, 14:00-15:30; Exam 13:00-15:00 (Including pre- and post-examination briefing time)
Classroom:: Online using ZOOM (The final exam is conducted online); *Please check the lecture URL on ITC-LMS.
Language Used in Class:: English
Reference (Textbook):: Any Prestressed Concrete textbook (Not required)
Grade Evaluation:: Examination (in the following week) 50%, Homework 40%, Attendance 10%. Because it is a graduate course, the scale typically ranges from A+ to B0.
Credits:: 1.0
Counterpart at UTokyo:: Kohei Nagai, Associate Professor,; Department of Civil Engineering; nagai325[at]iis.u-tokyo.ac.jp; (please change [at] to @)

Purpose:: To learn the design, construction and analysis of post-tensioned concrete structures in a brief manner
Objective:: The design and construction of post-tensioned structures are quite different from RC, steel, composite, timber or masonry structures. In this class, both pre-tensioned and post-tensioned concrete will be dealt with more of a focus on post-tension.
Outline:: 1. Unbonded and Bonded Post-tensioned Concrete Systems; 2. Working Stress Design, Flexural Design; 3. Post-tensioned Concrete Continuous Spans, PT Force Loss & Distribution; 4. Post-tensioning Field Fundamentals & Construction

View the course poster

2020S2

[2020S2] July 13-16, 2020 (4days)

Two dimensional materials and applications

Lecturer:

Gwan-Hyoung Lee, Associate Professor,

Department of Materials Science and Engineering, College of Engineering, Seoul National University

学部 / Faculty ※4年生対象 / for B4

FEN-CO5961L2 国際連携工学特別講義I

International Collaborators' Lecture on Engineering I

大学院/ Graduate School

3799-380 国際連携特別講義VII

International Collaborators' Special Lecture on Engineering VII

Date:: Mon, July 13 - Thu, July 16, 2020 (Intensive 4 days)
Time:: July 13 - July 15 10:00-12:00, 13:00-16:00; July 16 10:00-12:00, 13:00-17:00 (Exam 16:00-17:00)
Classroom:: Online using ZOOM; *Please check the lecture URL on UTAS.
Language Used in Class:: English
Reference (Textbook):: Handouts and reference papers are provided at ITC-LMS
Grade Evaluation:: exam 1 (50%), exam 2 (50%)
Credits:: 2.0
Counterpart at UTokyo:: Kosuke Nagashio,; Professor, Department of Materials Engineering; nagashio[at]material.t.u-tokyo.ac.jp; (please change [at] to @)

Objectives:: Fundamental understanding of 2D materials and their potential in electronic applications
Outline:: This course is designed to provide background knowledge of two-dimensional (2D) nanomaterials, such as graphene, hexagonal boron nitride, and transition metal dichalcogenides, and introduce the related advanced researches and applications. The topics include fundamental properties, crystal structure, electronic band structure, growth mechanisms of 2D materials, analytical methods, and various device applications.
Plan:: Chapter 1. History of 2D Materials; Chapter 2. Properties of Graphene; Chapter 3. Properties of 2D Insulators; Chapter 4. Properties of 2D Semiconductors; Chapter 5. Production of 2D Materials; Chapter 6. Analytical Tools for 2D Materials; Chapter 7. Property Control of 2D Materials; Chapter 8. van der Waals Heterostructures; Chapter 9. Applications of 2D Materials

View the course poster

Current course offerings (2021S2)

Current course offerings(2021S2)

Course details

Special Topic on Behavior of Zirconium-based Alloy Cladding

Contact Information

Archives

Mechanical properties of nanomaterials

Post-Tensioned Concrete Structures

Two dimensional materials and applications

Current course offerings
(2021S2)