フォロー
Toshio Osada
Toshio Osada
物質・材料研究機構 超耐熱材料グループ
確認したメール アドレス: nims.go.jp
タイトル
引用先
引用先
Optimum microstructure combination for maximizing tensile strength in a polycrystalline superalloy with a two-phase structure
T Osada, Y Gu, N Nagashima, Y Yuan, T Yokokawa, H Harada
Acta materialia 61 (5), 1820-1829, 2013
1092013
Influence of Co content on stacking fault energy in Ni–Co base disk superalloys
Y Yuan, Y Gu, C Cui, T Osada, Z Zhong, T Tetsui, T Yokokawa, H Harada
Journal of Materials Research 26 (22), 2833-2837, 2011
872011
Strength recovery behavior of machined Al2O3/SiC nano-composite ceramics by crack-healing
T Osada, W Nakao, K Takahashi, K Ando, S Saito
Journal of the European Ceramic Society 27 (10), 3261-3267, 2007
772007
Kinetics of self‐crack‐healing of alumina/silicon carbide composite including oxygen partial pressure effect
T Osada, W Nakao, K Takahashi, K Ando
Journal of the American Ceramic Society 92 (4), 864-869, 2009
712009
A novel strategy for the design of advanced engineering alloys—strengthening turbine disk superalloys via twinning structures
Y Yuan, Y Gu, C Cui, T Osada, T Yokokawa, H Harada
Advanced Engineering Materials 13 (4), 296-300, 2011
602011
Deformation mechanisms in a new disc superalloy at low and intermediate temperatures
Y Yuan, YF Gu, T Osada, ZH Zhong, T Yokokawa, H Harada
Scripta Materialia 67 (2), 137-140, 2012
532012
Factors contributing to the strength of a polycrystalline nickel–cobalt base superalloy
T Osada, N Nagashima, Y Gu, Y Yuan, T Yokokawa, H Harada
Scripta Materialia 64 (9), 892-895, 2011
512011
A novel design approach for self-crack-healing structural ceramics with 3D networks of healing activator
T Osada, K Kamoda, M Mitome, T Hara, T Abe, Y Tamagawa, W Nakao, ...
Scientific reports 7 (1), 1-9, 2017
492017
A new method to strengthen turbine disc superalloys at service temperatures
Y Yuan, YF Gu, T Osada, ZH Zhong, T Yokokawa, H Harada
Scripta Materialia 66 (11), 884-889, 2012
482012
Enhanced mechanical properties in a new Ni–Co base superalloy by controlling microstructures
CY Cui, YF Gu, Y Yuan, T Osada, H Harada
Materials Science and Engineering: A 528 (16-17), 5465-5469, 2011
462011
Creep mechanisms of U720Li disc superalloy at intermediate temperature
Y Yuan, YF Gu, CY Cui, T Osada, T Tetsui, T Yokokawa, H Harada
Materials Science and Engineering: A 528 (15), 5106-5111, 2011
402011
Finite element analysis of the damage and healing behavior of self-healing ceramic materials
S Ozaki, T Osada, W Nakao
International Journal of Solids and Structures 100, 307-318, 2016
342016
Finite element analysis of fracture statistics of ceramics: effects of grain size and pore size distributions
S Ozaki, Y Aoki, T Osada, K Takeo, W Nakao
Journal of the American Ceramic Society 101 (7), 3191-3204, 2018
292018
Machine learning-driven optimization in powder manufacturing of Ni-Co based superalloy
R Tamura, T Osada, K Minagawa, T Kohata, M Hirosawa, K Tsuda, ...
Materials & Design 198, 109290, 2021
262021
Creep mechanisms of a new Ni‐Co‐base disc superalloy at an intermediate temperature
Y Yuan, YF Gu, ZH Zhong, T Osada, CY Cui, T Tetsui, T Yokokawa, ...
Journal of Microscopy 248 (1), 34-41, 2012
242012
Crack-healing mechanism by alumina/SiC particles/SiC whiskers multi-composite
W Nakao, T Osada, K Yamane, K Takahashi, K Ando
Journal of the Japan Institute of Metals 69 (8), 663-666, 2005
232005
Self-crack-healing behavior in ceramic matrix composites
T Osada, N Wataru, K Takahashi, K Ando
Advances in Ceramic Matrix Composites, 515-544, 2014
182014
A prominent driving force for the spallation of thermal barrier coatings: chemistry dependent phase transformation of the bond coat
LT Wu, RT Wu, P Xiao, T Osada, KI Lee, M Bai
Acta Materialia 137, 22-35, 2017
172017
Self-healing by design: universal kinetic model of strength recovery in self-healing ceramics
T Osada, T Hara, M Mitome, S Ozaki, T Abe, K Kamoda, T Ohmura
Science and Technology of Advanced Materials 21 (1), 593-608, 2020
152020
Improvement in fatigue limit by shot peening for high-strength steel containing crack-like surface defect: influence of surface crack aspect ratio
M Nakagawa, K Takahashi, T Osada
Pressure Vessels and Piping Conference 55690, V005T11A025, 2013
152013
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