PSI - Issue 19
Edrissa Gassama et al. / Procedia Structural Integrity 19 (2019) 711–718 Gassama et al./ Structural Integrity Procedia 00 (2019) 000 – 000
718
8
Kitsunai, Y., Maeda, Y., Yoshihisa, E., 1998. Fatigue Strength of Gusset Welded Joints Under Simulated Program Loading of Overhead Traveling Crane. JSME International Journal Series A 41, 112-120. Koenigs, M.T., Botros, T.A., Freytag, D., Frank, K.H., 2003. Fatigue Strength of Signal Mast Arm Connections. Texas Department of Transportation, Research Report 4178-2. Lindqvist, J., 2002. Fatigue Strengths Thickness Dependence in Welded Constructions. Master’s Thesis, Borlänge, Sweden. Lotsberg, I., 2009. Fatigue Capacity of Load Carrying Fillet-Welded Connections Subjected to Axial and Shear Loading. Journal of Offshore Mechanics and Arctic Engineering 131, 041302-1 – 041302-9. Martinez, L.L., Blom, A.F., 1997. Influence of Life Improvement Techniques on Different Steel Grades Under Fatigue Loading. European Structural Integrity Society 22, 175-191. Maddox, S.J., 1982. Influence of Tensile Residual Stresses on the Fatigue Behavior of Welded Joints in Steel. Residual Stress Effects in Fatigue, ASTM STP 776, American Society for Testing and Materials, 63-96. Markl, A.R.C, George, H.H., 1960. Fatigue Tests on Flanged Assemblies. Pressure Vessel and Piping Design – Collected Papers 1927-1959, ASME New York, N.Y., 91-101. Mashiri, F.R., Zhao, X.-L., Grundy, P., 2002. Fatigue Tests and Design of Welded T Connections in Thin Cold-Formed Square Hollow Sections Under In-Plane Bending. Journal of Structural Engineering 128, 1413-1422. Mashiri, F.R., Zhao, X.-L., Grundy, P., 2004. Stress Concentration Factors and Fatigue Behaviour of Welded Thin-walled CHS-SHS T-joints Under In-plane Bending. Engineering Structures 26, 1861-1875. Mori, T., Shimanuki, H., Tanaka, M., 2012. Effect of UIT on Fatigue Strength of Web-Gusset Welded Joints Considering Service Condition of Steel Structures. Welding in the World 56, 1-9. Mori, T., Shimanuki, H., Tanaka, M., 2015. Influence of Steel Static Strength on Fatigue Strength of Web-gusset Welded Joints with UIT. Journal of Japan Society of Civil Engineers 3, 115-127. Ohta, S., Kudo, S., 1980a. Improving the Fatigue Strength of Fillet Welded Joints by Toe Grinding and Wire Peening (Report 1). Journal of the Japan Welding Society 49, 110-116. Ohta, S., Kudo, S., 1980b. Improving the Fatigue Strength of Fillet Welded Joints by Toe Grinding and Wire Peening (Report 2). Journal of the Japan Welding Society 50, 270-277. Okawa, T., Shimanuki, H., Funatsu, Y., Nose, T., Sumi, Y., 2013. Effect of Preload and Stress Ratio of Fatgiue Strength of Welded Joints Improved by Ultrasonic Impact Treatment. Welding in the World 57, 235-241. PD 5500, 2006. Specification for Unfired Fusion Welded Pressure Vessels. British Standards Institution. Pook, L.P., 1982. Fatigue Crack Growth in Cruciform-Welded Joints under Nonstationary Narrow-Band Random Loading. Residual Stress Effects in Fatigue, ASTM STP 776, American Society for Testing and Materials, 97-114. Rörup, J., Petershagen, H., 2000. The Effect of Compression Mean Stresses on the Fatigue Strength of Welded Structures. Welding in the World 44, 20-25. Schmee, J., Hahn, G.J., 1979. A Simple Method for Regression Analysis with Censored Data. Technometrics 12, 417-432. Sørenson, J.D., Tychsen, J., Andersen, J.U., Brandstrup, R.D., 2006. Fatigue Analysis of Load-Carrying Fillet Welds. Journal of Offshore Mechanics and Arctic Engineering 128, 65-74. Spadea, J.R., Frank, K.H., 2002. Fatigue Strength of Fillet-Welded Transverse Stiffeners with Undercuts. Texas Department of Transportation, Research Report 4178-1. Tai, M., Miki, C., 2014. Fatigue Strength Improvement by Hammer Peening Treatment – Verification from Plastic Deformation, Residual Stress, and Fatigue Crack Propagation Rate. Welding in the World 58, 307-318. Togasaki, Y., Tsuji, H., Honda, T., Sasaki, T., Yamaguchi, A., 2010. Effect of UIT on Fatigue Life in Web-Gusset Welded Joints. Journal of Solid Mechanics and Materials Engineering 4, 391-400. Ting, W., Dongpo, W., Lixing, H., Yufeng, Z., 2009. Discussion on Fatigue Design of Welded Joints Enhanced by Ultrasonic Peening Treatment (UPT). International Journal of Fatigue 31, 644-650. Wachel, J.C., Morton, S.J. Atkins, K.E., 1990. Piping Vibration Analysis. Texas A&M University. Turbomachinery Laboratories. Available electronically from http://hdl.handle.net/1969.1/163563. Xiao, Z.-G., Yamada, K., 2004. A Method of Determining Geometric Stress for Fatigue Strength Evaluation of Steel Welded Joints. International Journal of Fatigue 26, 1277-1293. Xiao, Z.-G., Yamada, K., 2005. Fatigue Strength of Intersecting Attachments. Journal of Structural Engineering 131, 924-932. Yagi, J., Tomita, Y., 1991. Definition of Hot Spot Stress in Welded Plate Type Structure for Fatigue Assessment (1 st Report). Journal of the Society of Naval Architects of Japan 1991, 311-318. Yagi, J., Machida, S., Tomita, Y., Matoba, M., Soya, I., 1991. Influencing Factors on Thickness Effect of Fatigue Strength in As-welded Joints for Steel Structure. Journal of the Society of Naval Architects of Japan 1991, 289-299. Yagi, J., Machida, S., Matoba, M., Tomita, Y., Soya, I., 1993. Thickness Effect Criterion for Fatigue Strength Evaluation of Welded Steel Structures. Transactions of the ASME 115, 58-65. Yee, R., Burns, D.J., Mohaupt, U.H., Bell, R., Vosikovsky, O., 1990. Thickness Effect and Fatigue Crack Development in Welded T-Joints. Journal of Offshore Mechanics and Arctic Engineering 112, 341-351.
Made with FlippingBook - Online magazine maker