Syllabus data
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Teacher name : YANASEKO Tetsuro
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Academic year
2025Year
Term
First Semester
Course title
Advanced Smart Materials
Class type
Lecture
Course title (ENG)
Advanced Smart Materials
Class code・Class name・Teaching forms
Z0300006 Advanced Smart Materials
Instructor
YANASEKO Tetsuro
Credits
2.0Credits
Day and Time
Tue.3Period
Campus
Hachioji Remote
Location
Relationship between diploma policies and this course
A) A high degree of specialized expertise 100%
B) The skills to use science and technology 0% C) The ability to conduct research independently, knowledge pertaining to society and occupations, and sense of ethics required of engineers and researchers 0% D) Creative skills in specific areas of specialization 0% Goals and objectives
Some materials have "natural" phenomena in which deformation occurs due to stress, and "unexpected" phenomena such as piezoelectric effect which electric charge is generated by stress. By effectively using these "unexpected" phenomena, it is possible to create "smart" materials, which respond to stimuli from the outside world. This lecture provides the characteristics of various "smart" materials and acquiring the background to effectively use not only structural materials but also functional materials.
Specifically, the purpose is to learn and master the following four items. (1) Basic mechanics of composite materials (2) Functions derived from crystal structure such as piezoelectric effect (3) Functions due to phase transformation such as shape memory effect (4) Functions using chemical reactions such as self-healing materials Prerequisites
It is desirable to learn Metallic Materials at undergraduate level.
Method Using AL・ICT
Presentation
Class schedule
1. Guidance of the lecture,advances in materials, what is “Smart” materials?
2. What are Composite Materials? Types of composite materials and fabrication processes. 3. Basic mechanics of composite (Mixture law, toughening by pullout) 4. Piezoelectric materials: Piezoelectric effect, crystal structure of piezoelectric materials 5. Piezoelectric ceramics and piezoelectric polymer 6. Magnetostrictive materials: magnetostrictive effect 7. Fe-Co alloy, Fe-Ga alloy 8. Shape memory alloys: Shape memory effect, superelasticity 9. Ni-Ti alloy, Fe-Mn-Si alloy 10. Self-healing materials: Mechanism of self-healing 11. Self-healing ceramics and concrete 12. English presentation (1) 13. English presentation (2) 14. Total review of this lecture Evaluation
Grade is evaluated by
Mini reports (30%) Presentation(40%) Report(30%) Feedback for students
Provide critique on presentation assignments.
Textbooks
特に定めない.教員が適宜プリント類を配布する.
Reference materials
材料の科学と工学 [1]材料の微細構造,W.D.キャリスター 著,入戸野修 訳,培風館
材料の科学と工学 [2]金属材料の力学的性質,W.D.キャリスター 著,入戸野修 訳,培風館 材料の科学と工学 [3]材料の物理的・科学的性質,W.D.キャリスター 著,入戸野修 訳,培風館 強誘電体デバイス,内野研二,森北出版株式会社 Office hours and How to contact teachers for questions
Monday:16:00〜17:00(Hachioji Campus,8-301, yanaseko@cc.kogakuin.ac.jp)
Message for students
知的材料は次世代材料として生まれた新たな材料の概念です.
従来の基本的な材料を発展させ,より高機能な材料を創製,または使用するために必要な知識を習得しましょう. Course by professor with work experience
Not applicable
Work experience and relevance to the course content if applicable
Teaching profession course
Mechanical Engineering Program
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