"Loris SIGNORI,Yotaro OKADA,Taiki NAKAMURA,Ryosuke YAMAGATA,Hirotoyo NAKASHIMA,Masao TAKEYAMA","Role of β/γ Duplex Microstructure on Crack Propagation of Wrought γ-based Titanium Aluminides at Ambient Temperature","日本学術振興会耐熱金属材料第123委員会設立60周年記念国際シンポジウム","日本学術振興会耐熱金属材料第123委員会設立60周年記念シンポジウム研究報告","日本学術振興会","Vol. 58","No. 3","p. 413-414",2017,Nov.
"Loris Signori,Taiki Nakamura,Yotaro Okada,Hirotoyo Nakashima,Masao Takeyama","Effect of microstructure containing β-Ti phase on crack propagation behavior of wrought γ-TiAl based alloys","Intermetallics 2017 International Conference","Karlsruher Institut for Tech.","Karlsruher Institut for Technologie",,,"pp. 169-170",2017,Oct.
"Loris SIGNORI,Taiki NAKAMURA,Yotaro OKADA,Ryosuke YAMAGATA,Hirotoyo NAKASHIMA,Masao TAKEYAMA","The effect β/γ duplex microstructure on fatigue crack growth behavior of wrought γ-TiAl based alloys","日本金属学会第161回秋期講演大会","日本金属学会講演概要集","日本金属学会",,,,2017,Sept.
"Loris SIGNORI,Hirotoyo NAKASHIMA,Satoru KOBAYASHI,Masao TAKEYAMA","Microstructure Contrul and Fatigue Properties of Wought TiAl Alloy with Mn","日本金属学会第160回春期講演大会","日本金属学会講演概要集",,,,,2017,Mar.
"Loris SIGNORI,Hirotoyo NAKASHIMA,Satoru KOBAYASHI,Masao TAKEYAMA","Microstructure Contrul and Fatigue Properties of Wought TiAl Alloy with Mn","日本金属学会第160回春期講演大会","日本金属学会講演概要集",,,,,2017,Mar.