Citation: | NIE Guo-hua, ZHANG Ruo-jing, LIU Ren-huai. An Investigation on Random Fatigue Strength of K-Type Tubular Joints and Crack Propagation Behaviors[J]. Applied Mathematics and Mechanics, 2001, 22(6): 572-578. |
[1] |
Dover W D, Holdbrook S J, Hibberd R D, et al. F atigue crack growth in T joints; out-of-plane bending[A]. Proc OTC[C]. Paper 3252, Houston: Taxas, 1978.
|
[2] |
Dover W D, Chaudhury G K, Dharmavasan S. Experimental and finite element comparisons of local stresses and compliance in tubular welded T joints[A]. Proc Int Conf on Steel in Marine Structure[C]. Paper No.4.3,Paris,1981.
|
[3] |
Gibstein M B. Fatigue strength of welded tubular joints tested at detnorske veritas laboratories[A]. Proc Int Conf on Steel in Marine Structures[C]. Paper No 8.4,Paris,1981.
|
[4] |
Clayton A M. Assessment of UKOSRP crack growth data to investigate the remaining life of offshore structures after inspection[R]. UKAEA, Report No ND-R-852(R),HSMO,London,1982.
|
[5] |
Paris P, Erdogan F. A critical analysis of crack propagati on laws [J]. Journal of Basic Engineering, Trans ASME,1963,85:528-534.
|
[6] |
Aamodt B. Application of finite element method to problems in linear and nonlinear fracture mechanics[D]. Dr-Ing thesis. Trondheim, Norway: The Norwegian Institute of Technology,1974.
|
[7] |
Newman J C, Raju I S. An empirical stress-intensity factor equation for the surface crack[J]. Engineering Fracture Mechanics,1981,15 (1-2):185-192.
|
[8] |
Shang-Xian W. Shape change of surface crack during fatigue growth [J]. Engineering Fracture Mechanics,1985,22(5):897-913.
|
[9] |
Delft D R V, Dijkstra O D, Snijder H H. The calculation of fatigue crack growth in welded tubular joints using fracture mechanics[A]. Proc OTC [C]. Paper 5352,Houston: Taxas,1986.
|
[10] |
张延宏,柳春图,梅红. 管节点疲劳寿命估算的统计分析方法[J]. 海洋工程,1990,8(4):15-23.
|
[11] |
Nie G H, Weng Z Y. A random numerical simulation analysis of fatigue strength of tubular joints in offshore platforms[A]. Proc of Int Conf on Comp Meth in Struct and Geotech Engng[C]. Hong Kong: The University of Hong Kong,1994,1226-1231.
|
[12] |
聂国华,翁智远,刘人怀. 用概率断裂力学方法预测管状接头的疲劳寿命 [J]. 应用数学和力学,1994,15(11):963-969.
|
[13] |
Lawrence F V, Ho N J, Mazumdar P K. Predicting the fatigue resistance of welds[J]. Ann Rev Mater Sci,1981,11:401-425.
|
[14] |
Dijkstra O D, Snijder H H, Overbeeke J L, et al. Prediction of fatigue crack growth for welded joints using stress intensity factors determined by FEM calculations[A]. Steel in Marine Structures[C]. Amsterdam: The Netherlands,1987,885-899.
|
[15] |
Wylde J G, McDonald A. The influence of joint dimensions on the fatigue strength of welded tubular joints[A]. Proceedings of the Second Inter national Conference on Behavior of Off-Shore Structures[C]. London: England, 1979,535-550.
|
[16] |
McDonald A, Wylde J G. Experimental Results of Fatigue Tests on Tubular Welded Joints, Fatigue in Off-Shore Structural Steels[M]. London,England: Thomas Telford Ltd,1981,89-100.
|