[Overview] Students will further develop what they learned in Non-Ferrous Metal Materials A-B, and gain an understanding for mainly non-ferrous metal materials 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, High resistant materials
✔ 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 | Microstructure and internal stress | To explan the internal stress influenced by the microstructure of alloys. |
Class 6 | Continuous casting | To understand the characteristics of continuous casting methods for aluminum and its alloy plates. |
Class 7 | Joining of similar- and dissimilar metals | To understand the characteristics of similar- and dissimilar metal joining by using various kinds of advanced methods. |
To enhance effective learning, students are encouraged to spend approximately 100 minutes preparing for class and another 100 minutes reviewing class content afterwards (including assignments) for each class.
They should do so by referring to textbooks and other course material.
Teaching materials will be provided by instructor.
Kei goukin zairyo, korona sha; Saikesshou to zairyo soshiki, Uchida roukakuho; Kinzokukan kagoubutu, Uchida roukakuho
Student will be evaluated by score of achievement evaluation and general practice during class (40%) and a term-examination (60%)
MAT.M307 : Science and Engineering of Non-ferrous Materials
MAT.M316 : Science and Engineering of Non-ferrous Materials A
MAT.M317 : Science and Engineering of Non-ferrous Materials B