This series of 8 lectures provides an overview on research and development of aeronautical materials, especially those intended for construction of turbine engines that propel the civil and military aircraft. To ensure continued progress demanded by the industries concerned, metal science plays a major role, since no other materials can fulfill the requirements for their operations (severe mechanical stress, increasingly higher temperatures and corrosive and oxidizing environment).
By presenting the current state of technology and examples of research activity to prepare the future, the aim of these lectures is to allow each student to refresh his or her knowledge already acquired in the field of metal science.
aeronautical materials, turbomachinery, metallic alloys, high-temperature and light-weight, structural applications
|✔ 専門力||✔ 教養力||✔ コミュニケーション力||展開力(探究力又は設定力)||✔ 展開力(実践力又は解決力)|
The examples of research activities that will be mentioned were chosen mostly among the activities that I had directly exercised during my professional career.
|第1回||Materials for turbomachinery||Overview on the present status|
|第2回||Titanium and its mechanical behavior||Crystal plasticity|
|第3回||Titanium and titanium alloys||Titanium metallurgy|
|第4回||Multi-component intermetallic alloys I||Order-disorder transition|
|第5回||Multi-component intermetallic alloys II||Multicomponent B2 alloys|
|第6回||Multi-component intermetallic alloys III||Highly ductile intermetallic alloys|
|第7回||Phase transformations in two-phase TiAl alloys||Phase transformation|
|第8回||TiAl alloys - role of solidification paths||Solidification paths|
handouts of the slides
- half-page report summarizing each lecture (provided by each student)
- interactivity (of each student)
basic knowledge in metal science