Positive temperature dependence of the yield stress in TiAl L10 type superlattice intermetallic compound single crystals at 293–1273 K T Kawabata, T Kanai, O Izumi Acta metallurgica 33 (7), 1355-1366, 1985 | 473 | 1985 |
Effect of purity and second phase on ductility of TiAl T Kawabata, M Tadano, O Izumi Scripta metallurgica 22 (11), 1725-1730, 1988 | 145 | 1988 |
Effect of Ti/Al ratio and Cr, Nb, and Hf additions on material factors and mechanical properties in TiAl T Kawabata, T Tamura, O Izumi Metallurgical Transactions A 24, 141-150, 1993 | 127 | 1993 |
Method of constraint loss correction of CTOD fracture toughness for fracture assessment of steel components F Minami, M Ohata, H Shimanuki, T Handa, S Igi, M Kurihara, T Kawabata, ... Engineering Fracture Mechanics 73 (14), 1996-2020, 2006 | 99 | 2006 |
Bend tests and fracture mechanism of TiAl single crystals at 293–1073 K T Kawabata, Y Takezono, T Kanai, O Izumi Acta Metallurgica 36 (4), 963-975, 1988 | 86 | 1988 |
Mechanical properties and dislocation structures of TiAl single crystals deformed at 4.2–293 K T Kawabata, T Abumiya, T Kanai, O Izumi Acta Metallurgica et Materialia 38 (8), 1381-1393, 1990 | 85 | 1990 |
High-Temperature Ordered Intermetallic Alloys III T Kawabata, T Tamura, O Izumi, CT Liu, AI Taub, NS Stoloff, CC Koch edited by CT Liu, AI Taub, NS Stoloff and CC Koch, MRS Symp. Proc 133, 329, 1989 | 81 | 1989 |
Proposal for a new CTOD calculation formula T Kawabata, T Tagawa, T Sakimoto, Y Kayamori, M Ohata, Y Yamashita, ... Engineering Fracture Mechanics 159, 16-34, 2016 | 63 | 2016 |
Brittle crack propagation resistance inside grain and at high angle grain boundary in 3% Si-Fe alloy D Nakanishi, T Kawabata, S Aihara Acta Materialia 144, 768-776, 2018 | 52 | 2018 |
Comparison of CTOD standards: BS 7448-Part 1 and revised ASTM E1290 T Tagawa, Y Kayamori, M Ohata, T Handa, T Kawabata, Y Yamashita, ... Engineering Fracture Mechanics 77 (2), 327-336, 2010 | 51 | 2010 |
Effect of oxygen addition on mechanical properties of TiAl at 293–1273 K T Kawabata, T Abumiya, O Izumi Acta metallurgica et materialia 40 (10), 2557-2567, 1992 | 49 | 1992 |
Dislocation structures in TiAl single crystals deformed at 77K T Kawabata, O Izumi Scripta metallurgica 21 (4), 433-434, 1987 | 42 | 1987 |
Contribution of grain size to resistance against cleavage crack propagation in ferritic steel F Yanagimoto, T Hemmi, Y Suzuki, Y Takashima, T Kawabata, ... Acta Materialia 177, 96-106, 2019 | 41 | 2019 |
A new concept of digital twin of artifact systems: synthesizing monitoring/inspections, physical/numerical models, and social system models T Okita, T Kawabata, H Murayama, N Nishino, M Aichi Procedia Cirp 79, 667-672, 2019 | 41 | 2019 |
Development of guidelines on brittle crack arrest design-Brittle crack arrest design for large container ships-1 Y Yamaguchi, H Yajima, S Aihara, H Yoshinari, K Hirota, M Toyoda, ... ISOPE International Ocean and Polar Engineering Conference, ISOPE-I-10-438, 2010 | 41 | 2010 |
Development of brittle crack arrest toughness Kca test method-Brittle crack arrest design for large container ships-2 T Kawabata, K Matsumoto, T Ando, H Yajima, S Aihara, H Yoshinari, ... ISOPE International Ocean and Polar Engineering Conference, ISOPE-I-10-464, 2010 | 40 | 2010 |
Isotope effect in superconductors Y Taguchi, T Kawabata, T Takano, A Kitora, K Kato, M Takata, Y Iwasa Physical Review B—Condensed Matter and Materials Physics 76 (6), 064508, 2007 | 37 | 2007 |
Experimental measurements of deformed crack tips in different yield-to-tensile ratio steels T Tagawa, T Kawabata, T Sakimoto, Y Kayamori, M Ohata, Y Yamashita, ... Engineering Fracture Mechanics 128, 157-170, 2014 | 32 | 2014 |
Required brittle crack arrest toughness Kca value with actual-scale model tests-brittle crack arrest design for large container ships-4 T Inoue, Y Yamaguchi, H Yajima, S Aihara, H Yoshinari, K Hirota, ... ISOPE International Ocean and Polar Engineering Conference, ISOPE-I-10-139, 2010 | 32 | 2010 |
Effect of dispersed retained γ-Fe on brittle crack arrest toughness in 9% Ni steel in cryogenic temperatures D Nakanishi, T Kawabata, S Aihara Materials Science and Engineering: A 723, 238-246, 2018 | 29 | 2018 |