[Overview] Students will further develop what they learned in Non-Ferrous Metal Materials, and gain an understanding for mainly non-ferrous metal materials such as aluminum, titanium, and magnesium of advanced adaptive processes and material organization and properties derived from those processes, as well as deepen their understanding of non-ferrous metal materials used for diverse purposes.
[Purpose] By combining the basic knowledge learned in Non-Ferrous Metal Materials with the knowledge acquired in this course on advanced processes, students will learn materials design guidelines for using non-ferrous metal materials in a variety of industrial situations.
[Objectives] This course is mainly aimed at students who have taken Non-Ferrous Metals Materials Science. Students will gain a systematic understanding of advanced process technology for non-ferrous metal materials, and connect the organization and properties of non-ferrous metal materials used for special uses to understand them. Finally students will acquire material design methods for advanced non-ferrous metal materials.
[Topics] Students will study the characteristic organization and properties from individual processes for non-ferrous metal materials produced and used with advanced process technologies, and study application-oriented properties.
Non-ferrous metal, Advanced processing, Recycling, Joining, Amorphous, Intermetallic compound, Porous materials, Functionally gradient materials, 3D fabrication
|✔ Specialist skills||Intercultural skills||Communication skills||Critical thinking skills||✔ Practical and/or problem-solving skills|
Student will solve exercise problems, which are given from instructor at the latter part of class.
|Course schedule||Required learning|
|Class 1||Rapid solidification and amorphous materials||To explain the amorphous metal and alloys in terms of fabrication process and properties.|
|Class 2||Heat treatment and plastic working||to expalain the recovery and recrystallization phenomena due to the heat treatment and plastic working process.|
|Class 3||Microstructure control by directional solidification and single crystal growth||To explain the microstructure and properties in uni-directionally solidified alloys.|
|Class 4||Structural intermetallic compounds||To explain the intermetallic compounds in view of crystallography, microstructure and properties.|
|Class 5||Achievement evaluation and general practice (1) plastic work and heat treatment, microstructure control, intermetallic compounds||To understand the characteristics of non-ferrous alloys in terms of heat treatment and plastic working, microstructure control, intermetallic compounds.|
|Class 6||Continuous casting I||To understand the characteristics of continuous casting methods for steel plates.|
|Class 7||Continuous casting II||To understand the characteristics of continuous casting methods for aluminum and its alloy plates.|
|Class 8||Semi-liquid and semi-solid casting||To understand the characteristics of semi-liquid and semi-solid casting methods.|
|Class 9||Joining of similar- and dissimilar metals||To understand the characteristics of similar- and dissimilar metal joining by using various kinds of advanced methods.|
|Class 10||Material flow of aluminum and contribution to global environmental problems||To understand the material flow of aluminium, recycling, reduction of GH gas emission and their contribitions to global environmental problems.|
|Class 11||Porous materials||To understand classification of porous materials and to explain their microstructure and properties|
|Class 12||Functionally gradient materials||To understand cifference between convemtional materials with coating and functionally gradient materials (FGMs) and to explain microstructure and properties of FGMs.|
|Class 13||Additive manufacturing||To explain to explain microstructure and properties of materials fabricated by additive manufacturing.|
|Class 14||Achievement evaluation and general practice (3)||To understand the characteristics of porous materials, functionally gradient materials and materials fabricated by additive manufacturing.|
Teaching materials will be provided by instructor.
”Kei goukin zairyo", korona sha、Zukai-Keisyakino-zairyo-no-kiso-to-oyo(korona-sya), rea-metaru-no-daitaizairyo-to-risaikuru(shi- emu shi- shuppan), mozozukuri-no-genten - sokeizai-gijutu (sokeizai senta-), jidousya-no-zairyo-gijutu (jidosya-gijutu-kai)
Student will be evaluated by score of achievement evaluation and general practice during class (40%) and a term-examination (60%)
Enrollment in related courses is desirable.