FINITE ELEMENT ANALYSIS OF CRACKED TUBULAR KK-JOINTS IN OFFSHORE ENGINEERING
A multi-planar tubular KK-joint containing a surface crack is analyzed using finite element method. Five element types are used to model the surface crack to avoid the high aspect ratio of the elements. Both displacement extrapolation method and interaction J-integral method are adopted to calculate the stress intensity factors (SIF) along the crack front, which are usually used to predict the fatigue life for tubular joints in offshore engineering. From the SIF comparison of two methods, the results agree quite well and both methods can be used reliably for analyzing cracked tubular KK-joints. For the parametric study, 70 cracked KK-joint models are analyzed altogether. The results show that the SIFs along a surface crack in a tubular KK-joint under axial loads are mainly determined by joint geometry and crack shape. The values of Y at the deepest point of the surface crack increase as parameters β, γ and τ increase, and Y decreases as parameter a/c increases. The values of Y at the crack tips increase as parameters γ, τ and a/c increase. Conversely, Y decreases as parameters β and al T increase.
tubular KK-joints finite element method stress intensity factor parametric study
Fei Gao Yongbo Shao Lei Wang
Huazhong University of Science and Technology, Wuhan, China Yantai University, China
国际会议
The 9th International Conference on Steel Space & Composite Structures(第九届国际钢材、空间结构、组合结构会议)
烟台·北京
英文
487-494
2007-10-10(万方平台首次上网日期,不代表论文的发表时间)