BS 5400—1980, Steel, Concrete and Composite Bridges[S].
[7]
AASHTO.Design Code for American Highway Bridge[M].Translated by XIN Ji-ping, WAN Guo-chao, ZHANG Wen.Beijing:China Communications Press, 1998.
[8]
Europe Society of Steel Structures.Code for Fatigue Design of Steel Structures[M].Translated by SHI Yong-ji, ZHENG Xiu-lin.Xian:Northwestern Polytechnical University Press, 1989.
[9]
XIANG Hai-fan.Advanced Structural Theory of Bridge[M].Beijing:China Communications Press, 2001.
[10]
QIAN Dong-sheng.Fatigue Design of Steel Bridges[M].Chengdu:Southwest Jiaotong University Press, 1986.
[11]
WANG Chun-sheng, CHEN Wei-zhen, CHEN Ai-rong, et al.3D Finite-element Model Simulation and Remaining Fatigue Life Assessment of Existing Steel Bridges[J].Journal of Changan University:Natural Science Edition, 2004, 24(1):43-47.
[12]
JTJ 025—86, Steel and Wood Structure Design Code for Highway Bridge[S].
COHEN H, FU G K.Predicting Truck Load Spectra Under Weight Limit Changes and Its Application to Steel Bridge Fatigue Assessment[J].Journal of Bridge Engineering, 2003, 8(5):312-322.
[15]
WANG Chun-sheng, CHEN Wei-zhen, CHEN Ai-rong.Assessment of Remaining Fatigue Life and Service Safety for Old Steel Bridges Based on Fracture Mechanics[J].China Journal of Highway and Transport, 2006, 19(2):42-48.
