Numbering Code	G-ENE03 63364 LJ75 G-ENE03 63364 LJ77	Year/Term	2022 ・ First semester
Number of Credits	2	Course Type	Lecture
Target Year	Master's students	Target Student
Language	Japanese	Day/Period	Mon.3
Instructor name	MORISHITA KAZUNORI (Institute of Advanced Energy Associate Professor)
Outline and Purpose of the Course	Nuclear power reactor has been demanded to be operated safely with high thermal efficiency which often depends on the soundness of structural materials of reactor components. In this lecture, radiation effects on materials are introduced to understand materials behavior under high energy particles irradiation.
Course Goals	To understand the radiation damage mechanism of metallic materials including pure metals, alloys and steels. The roles of lattice defects in radiation responses of materials and their generation processes should be understood.
Schedule and Contents	1. Lattice defects (3 classes) 1) Lattice defects and material properties 2) Radiation damage 3) Radiation environment 2. Formation process of radiation damage structures 1) Generation of non-equilibrium damage structures 2) Mobility of damage structures 3) Nucleation and growth of damage structures 4) Void swelling 3. Radiation effects on materials 1) Mechanism of irradiation hardening 2) Creep and swelling 3) Nuclear transmutation effects 4) Synergisms of irradiation effects and helium effects. 4. Fusion materials 1) Required materials performance 2) Current status of fusion materials R&D
Evaluation Methods and Policy	1. A written test (higher than 70%) 2. Attendance
Course Requirements	None
Study outside of Class (preparation and review)	review of prints
Textbooks	Textbooks/References	distribute prints at each class
References, etc.	Fundamentals of Radiation Materials Science, G.S. Was, (Springer)