Issue 35

T. Abe et alii, Frattura ed Integrità Strutturale, 35 (2016) 424-433; DOI: 10.3221/IGF-ESIS.35.48 433 [9] Mori, T., Kainuma, S., A fatigue strength evaluation method for load-carrying fillet welded cruciform joints, Journal of Structural Mechanics and Earthquake Engineering, I-29 (1994) 95-102. [10] Nakagomi, T., Okada, T., Gun, L., Kubota, K., Experimental study on fatigue strength of cruciform welded joint, Steel construction engineering, 2. [11] Otegui, J.L., Mohaupt, U.H., Burns, D.J., Effect of weld process on early growth of fatigue cracks in steel T joints, International Journal of Fatigue, 13(1) (1991) 45-58. [12] The Japan Welding Engineering Society ed., Welding Engineering Standard, The Japan Welding Engineering Society. [13] Yamada, K., KIM, I., Ito, K., Fatigue behavior of inclined non-load-carrying fillet welded joints, Journal of Structural Mechanics and Earthquake Engineering (I) , 682 ( I) 56.