Material Science

Course title

C0012000

Material Science

Middle-level Diploma Policy (mDP)

Program / Major	mDP	Goals	Courses
Fundamental Mechanical Engineering	F	産業界や社会の要請を把握して解決するべき課題を設定し、さまざまな工学分野の知識を関連付けながら設計生産技術を活用することで、立案した構想に従って研究を進め課題を解決することができる。	Sub
Advanced Mechanical Engineering	F	産業界や社会の要請を把握して解決するべき課題を設定し、機械工学の学理を応用して異分野を含む融合分野で革新的な機能を創成することができる。	Sub
Environment and Materials Engineering	A	確かな基礎と物質化学の専門知識に基づいて問題を解決することができる。	Main
Electrical Engineering and Robotics	D	電気工学や関連する工学の技術分野を課題に適用し、社会の要求を解決するために応用することができる。	Sub
Advanced Electronic Engineering	E	専門的デザイン課題について解決する能力を身に付けることができる。	Sub
Information and Communications Engineering	F	社会のニーズに対して技術課題を主体的に発見し、工学分野における分野横断的な知識も活用しつつ、計画的・継続的に取り組んで課題を達成することができる。	Sub
Computer Science and Engineering	G	技術的課題に対してさまざまな工学分野の知識を関連付けながら主体的に取り組み、継続的に学修する能力を身に付けることができる。	Sub
Urban Infrastructure and Environment	G	⼟⽊⼯学における現実の問題について、⼯学・専⾨基礎知識を⽤いて理解・解決することができる。	Sub

Purpose of class

Purpose of this lecture is to study the basic knowledge of the materials such as the product methods, heat treatment methods, and process principle. In addition, the basic knowledge on the structures, textures, thermodynamics, and strength related to the nonferrous alloy materials will be learned in detail.

Course description

　There are many types in materials and the materials has been used widely in various fields. Thus, it is very important for the use of the materials to understand the product methods, heat treatment methods, and process principle. In this lecture, the basic knowledge of the materials science such as the product methods, heat treatment methods, and process principle will be explained. In addition, to understand deeply these, basic knowledge on the structures, textures, thermodynamics, and strength related to the materials will be studied in detail.

Goals and objectives

Understanding deeply the product methods, heat treatment methods, and process principle of materials
Understanding deeply basic knowledge on the structures, textures, thermodynamics, and strength related to materials
Understanding deeply the relationship between the properties of various materials and the structures, textures, thermodynamics, and strength

Relationship between 'Goals and Objectives' and 'Course Outcomes'

	Materials Science	Total.
1.	30%	30%
2.	30%	30%
3.	40%	40%
Total.	100%	-

Evaluation method and criteria

Final grade point will be determined by reports, and term-end examination.

Language

Japanese(English accepted)

Class schedule

	Class schedule	HW assignments (Including preparation and review of the class.)	Amount of Time Required
1.	Basic 　　・Overview of material science on materials	Understanding contents of the lecture by reading documents distributed	30minutes
2.	Properties and application of materials 　　・Properties of materials 　　・Application of materials	Understanding contents of the lecture by reading documents distributed	100minutes
3.	Crystal structures of materials 　　・Atomic structure and bonding 　　・Basic of crystal structures	Understanding contents of the lecture by reading documents distributed	100minutes
4.	Crystal structures of materials 　　・Basic of crystal structures	Understanding contents of the lecture by reading documents distributed	100minutes
5.	Textures of materials 　　・Basic of crystal grains and grain boundary 　　・Lattice defects and their role	Understanding contents of the lecture by reading documents distributed	100minutes
6.	Textures and thermodynamics of materials 　　・Atomic vacancy 　　・Dislocation 　　・Entropy 　　・Twin crystals 　　・Chemical defects	Understanding contents of the lecture by reading documents distributed	100minutes
7.	Mid-Term examination	Understanding contents of the lecture	120minutes
8.	Control of textures for materials 　　・Interstitial atom 　　・Solid solution	Understanding contents of the lecture by reading documents distributed	100minutes
9.	Smelting and thermodynamics of material-part I 　　・Pretreatment for smelting process 　　・Ellingham diagram 　　・Chemical equilibrium	Understanding contents of the lecture by reading documents distributed	100minutes
10.	Smelting and thermodynamics of material-part II 　　・Equilibrium constant 　　・Chemical affinity 　　・Reduction processes for nonferrous alloy materials	Understanding contents of the lecture by reading documents distributed	100minutes
11.	Production methods of various materials 　　・Dry processes 　　・Wet processes	Understanding contents of the lecture by reading documents distributed	100minutes
12.	Process principle of various materials 　　・Plastic forming 　　・Stress and strain	Understanding contents of the lecture by reading documents distributed	100minutes
13.	Heat treatments for various materials 　　・Simulated annealing 　　・Precipitation aging	Understanding contents of the lecture by reading documents distributed	100minutes
14.	Term-end examination	Understanding contents of the lecture by reading documents distributed	180minutes
Total.	-	-	1430minutes

Feedback on exams, assignments, etc.

ways of feedback	specific contents about "Other"
Feedback in/outside the class.

Textbooks and reference materials

N/A

Prerequisites

Thermodynamics

Office hours and How to contact professors for questions

In lecture at Omiya campus, and Monday(12:20-13:00) at Toyosu campus.
Contact me by e-mail.

Regionally-oriented

Non-regionally-oriented course

Development of social and professional independence

Course that cultivates an ability for utilizing knowledge
Course that cultivates a basic interpersonal skills
Course that cultivates a basic self-management skills

Active-learning course

More than one class is interactive

Course by professor with work experience

Work experience	Work experience and relevance to the course content if applicable
N/A	N/A

Education related SDGs:the Sustainable Development Goals

4.QUALITY EDUCATION
9.INDUSTRY, INNOVATION AND INFRASTRUCTURE

Last modified : Sat Mar 14 14:09:50 JST 2026