References
- Takahashi , I , Yoshii , T , Iidaka , H , Fujii , E and Matsuoka , K . 1991 . Fatigue strength of non-load-carrying fillet welded joints using KE36 (TMCP) steel – effects of weld residual stresses and stress concentration factor . J Soc Nav Archit Jpn , : 267 (in Japanese)
- Matsuoka , K , Takahashi , I and Fujii , E . 1992 . Effect of yield stress on fatigue strength of non-load-carrying fillet welded joints . J Soc Nav Archit Jpn , : 417 (in Japanese)
- Watanabe , O , Matsumoto , S , Nakano , Y and Saito , Y . 1995 . Fatigue strength of welded joint of high strength steel and its controlling factor – effects of stress concentration factor and welding residual stress . Q J Jpn Weld Soc , 13 ( 3 ) : 438 (in Japanese)
- Kawai , S , Miyamoto , T , Shiono , T and Saikawa , S . 1979 . Effects of finishes of weld toe on fatigue strength of welded high strength steels . J Jpn Weld Soc , 48 ( 9 ) : 700 (in Japanese)
- Japan Society of Steel Construction (ed): Fatigue design policy for steel structures, with explanatory notes. Gihodo Shuppan. 1993. (in Japanese)
- Statnikov E. Comparison of post weld deformation methods for increase in fatigue strength of welded joints. IIW/IIS, Doc. XIII-1668–97; 1997
- Haagensen PJ, Statnikov E, Lopez-Martinez M. Introductory fatigue tests on welded joint in high strength steel and aluminum improved by various methods including ultrasonic impact treatment (UIT). IIW, Doc. XIII-1748–98; 1998
- Ishikawa , T , Hagiwara , I , Seto , A , Soya , I and Kobayashi , J . 1996 . Fatigue properties of steel plate having ultra fine-grained surface-layers . CAMP-ISIJ , 9 : 581 (in Japanese)
- Konda , N , Arimochi , K , Hirota , K , Watanabe , E , Tada , M , Fukui , T , Kitada , H , Yamamoto , M , Kho , Y and Yajima , H . 2003 . Improvement on fatigue fracture life of welded structures by micro-structure in steels – research on extension of fatigue life of ship structure part 3 . J Soc Nav Archit Jpn , : 193 (in Japanese)
- Nakashima K, Shimanuki H, Nose T, Ishikawa T. Fatigue crack growth retardation by control of microstructure in heavy steel plate. Q J Jpn Weld Soc, to be submitted. (in Japanese)
- Nakashima K, Shimanuki H, Nose T, Ishikawa T. Effects of martensite as hard secondary phase on fatigue crack growth properties in heavy steel plate. Q J Jpn Weld Soc, to be submitted. (in Japanese)
- Tanaka , Y and Soya , I . 1987 . Effects of stress ratio and stress intensity factor range on fatigue crack closure in steel plate . Q J Jpn Weld Soc , 5 ( 1 ) : 119
- Suresh , S and Shih , CF . 1986 . Plastic near-tip fields for branched cracks . Int J Fract , 30 : 237
- Suresh , S . 1983 . Crack deflection: implications for the growth of long and short fatigue cracks . Metall Transact A , 14A : 2375
- Suresh , S . 1985 . Fatigue crack deflection and fracture surface contact: micromechanical models . Metall Transact A , 16A : 249
- The Japan Welding Engineering Society, WES2805-1997 . 1997 . Method of assessment for flaws in fusion welded joints with respect to brittle fracture and fatigue crack growth . (in Japanese)