セラミックス材料や薄膜材料と金属材料との学術の融合により、既存の常識にとらわれず構造用α＋β合金や準安定β合金を中心に新規チタン合金の開発を目指しています。特に、電子顕微鏡法による材料組織解析と組織制御に基づいた材料設計、そしてExperiment-Drivenなアプローチを心がけています。

By integrating the academic realms of ceramics and thin-film materials with metallic counterparts, we aspire to pioneer novel titanium alloys, with a special focus on structural duplex variants, unencumbered by conventional paradigms. Our approach is centered on material design rooted in comprehensive microstructural analysis and precise control, leveraging advanced electron microscopy techniques. Embracing an Experiment-Driven methodology, we aim to push the boundaries of alloy development, forging new pathways in materials science and engineering.

主要な研究テーマ　Main Research Topics

1. α＋β/near-α合金の微細ラメラ組織や急冷凝固を利用した耐熱合金の開発
　Micro-lamellar microstructures in α＋β and near-α alloys with heat-resistance
2. 全率固溶型Ti-Zr合金における新奇周期構造の形成
Formation of novel periodic structures in all-rate solid solution Ti-Zr alloys
3. Ti-Fe-Cu-O合金の組織制御による高延性と高強度の実現
Impeovement of mechanical properties of Ti-Fe-Cu-O alloys with microstructure controle
4. MAX相分散強化チタン合金の創製
Preparation of MAX phase dispersion strengthened titanium alloys
5. 耐酸化性α＋β合金及びTiAl基合金の開発

Development of α＋β and TiAl-based alloys with excelent oxidation resistance