The International Information Center for Structural Engineers

Fatigue

Low-Cycle Fatigue Behavior of Longitudinal Reinforcement in Reinforced Concrete Bridge Columns
J. Brown,S.K. Kunnath. (2000).
Fatigue Strength of Two Steel Details
K.A. Baker, G.L. Kulak. (1982).
Fatigue of Riveted Tension Members
J.D. DiBattista, G.L. Kulak. (1995).
Fatigue Tests of Riveted Bridge Girders
D. Adamson, G.L. Kulak. (1995).
Fatigue Analysis of Orthotropic Highway Bridge Decks
K. Kiss, E. Szekely, L. Dunai. (1998).
Fatigue Life Prediction of Fiber Reinforced Concrete under Flexural Load
J. Zhang, H. Stang, V.C. Li. (1999).
Reverse-Cycle Fatigue Tests on Stud Shear Connectors
R. Seracino, D.J. Oehlers, M.F. Yeo. (1999).
Fatigue of Bearing-Type Shear Splices
G. Josi, G.Y. Grondin, G.L. Kulak. (1999).
Behaviour of Distortion-Induced Fatigue Cracks in Bridge Girders
R. Fraser, G.Y. Grondin, G.L. Kulak. (2000).
Static and Fatigue Analyses of RC Beams Strengthened with CFRP Laminates
S. El-Tawil, A. Okeil, M. Shahawy. (2001).
Behaviour and Rehabilitation of Distortion-Induced Fatigue Cracks in Bridge Girders
M. D'Andrea, G.Y. Grondin, Kulak G.L.. (2001).
Prediction of Mean and Design Fatigue Lives of Steel Fibrous Concrete using S-N Relationships
S.P. Singh, S. Goel, R. Lal, S.K. Kaushik. (2004).
Micromechanical Simulation of Earthquake-Induced Fracture in Steel Structures
A.M. Kanvinde, G.G. Deierlein. (2004).
Prediction of Fatigue Strength in Plain and Reinforced Concrete Beams
T. Sain. (2007).
Fatigue-prone details in steel bridges.
R. Haghani, M. Al-Emrani, M. Heshmati. (2012).