Creep-resistant steels F Abe, TU Kern, R Viswanathan Elsevier, 2008 | 603 | 2008 |
Precipitate design for creep strengthening of 9% Cr tempered martensitic steel for ultra-supercritical power plants F Abe Science and Technology of Advanced Materials 9 (1), 013002, 2008 | 592 | 2008 |
Creep-strengthening of steel at high temperatures using nano-sized carbonitride dispersions M Taneike, F Abe, K Sawada Nature 424 (6946), 294-296, 2003 | 473 | 2003 |
Development of Al added high-Cr ODS steels for fuel cladding of next generation nuclear systems A Kimura, R Kasada, N Iwata, H Kishimoto, CH Zhang, J Isselin, P Dou, ... Journal of Nuclear Materials 417 (1-3), 176-179, 2011 | 350 | 2011 |
Stabilization of martensitic microstructure in advanced 9Cr steel during creep at high temperature F Abe, T Horiuchi, M Taneike, K Sawada Materials Science and Engineering: A 378 (1-2), 299-303, 2004 | 316 | 2004 |
Effect of carbon concentration on precipitation behavior of M23C6 carbides and MX carbonitrides in martensitic 9Cr steel during heat treatment M Taneike, K Sawada, F Abe Metallurgical and materials Transactions A 35, 1255-1262, 2004 | 283 | 2004 |
Research and development of heat-resistant materials for advanced USC power plants with steam temperatures of 700 C and above F Abe Engineering 1 (2), 211-224, 2015 | 275 | 2015 |
Alloy design of creep resistant 9Cr steel using a dispersion of nano-sized carbonitrides F Abe, M Taneike, K Sawada International Journal of Pressure Vessels and Piping 84 (1-2), 3-12, 2007 | 267 | 2007 |
Coarsening behavior of lath and its effect on creep rates in tempered martensitic 9Cr–W steels F Abe Materials Science and Engineering: A 387, 565-569, 2004 | 252 | 2004 |
Bainitic and martensitic creep-resistant steels F Abe Current Opinion in Solid State and Materials Science 8 (3-4), 305-311, 2004 | 244 | 2004 |
Creep behavior and stability of MX precipitates at high temperature in 9Cr–0.5 Mo–1.8 W–VNb steel K Sawada, K Kubo, F Abe Materials Science and Engineering: A 319, 784-787, 2001 | 222 | 2001 |
Ferritic/martensitic steels: promises and problems RL Klueh, K Ehrlich, F Abe Journal of nuclear materials 191, 116-124, 1992 | 198 | 1992 |
Effect of fine precipitation and subsequent coarsening of Fe2W laves phase on the creep deformation behavior of tempered martensitic 9Cr-W steels F ABe Metallurgical and materials Transactions A 36, 321-332, 2005 | 192 | 2005 |
Creep rates and strengthening mechanisms in tungsten-strengthened 9Cr steels F Abe Materials Science and Engineering: A 319, 770-773, 2001 | 191 | 2001 |
Improved utilization of added B in 9Cr heat-resistant steels containing W T Horiuchi, M Igarashi, F Abe ISIJ international 42 (Suppl), S67-S71, 2002 | 181 | 2002 |
TEM and HRTEM study of oxide particles in an Al-alloyed high-Cr oxide dispersion strengthened steel with Zr addition P Dou, A Kimura, R Kasada, T Okuda, M Inoue, S Ukai, S Ohnuki, ... Journal of nuclear materials 444 (1-3), 441-453, 2014 | 178 | 2014 |
Degradation of Mod. 9Cr-1Mo steel during long-term creep deformation H KUSHIMA, K KIMURA, F ABE Tetsu-to-Hagane 85 (11), 841-847, 1999 | 169 | 1999 |
The role of microstructural instability on creep behavior of a martensitic 9Cr-2W steel F Abe, S Nakazawa, H Araki, T Noda Metallurgical Transactions A 23, 469-477, 1992 | 161 | 1992 |
Analysis of creep rates of tempered martensitic 9% Cr steel based on microstructure evolution F Abe Materials Science and Engineering: A 510, 64-69, 2009 | 154 | 2009 |
Creep crack growth behavior in the HAZ of weldments of W containing high Cr steel M Tabuchi, T Watanabe, K Kubo, M Matsui, J Kinugawa, F Abe International Journal of Pressure Vessels and Piping 78 (11-12), 779-784, 2001 | 150 | 2001 |