[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/scs.2015.18.4.1045

Residual static strength of cracked concrete-filled circular steel tubular (CFCST) T-joint

Cui, M.J. (School of Civil Engineering, Yantai University)
Shao, Y.B. (School of Civil Engineering, Yantai University)

Publication Information

Steel and Composite Structures / v.18, no.4, 2015 , pp. 1045-1062 More about this Journal

Abstract

Concrete-filled circular t steel tubular joints (CFSTJs) in practice are frequently subjected to fluctuated loadings caused by wind, earthquake and so on. As fatigue crack is sensitive to such cyclic loadings, assessment on performance of CFSTJs with crack-like defect attracts more concerns because both high stress concentration at the brace/chord intersection and welding residual stresses along weld toe cause the materials in the region around the intersection to be more brittle. Once crack initiates and propagates along the weld toe, tri-axial stresses in high gradient around the crack front exist, which may bring brittle fracture failure. Additionally, the stiffness and the load carrying capacity of the CFSTJs with crack may decrease due to the weakened connection at the intersection. To study the behaviour of CFSTJs with initial crack, experimental tests have been carried out on three full-scale CFCST T-joints with same configuration. The three specimens include one uncracked joint and two corresponding cracked joints. Load-displacement and load-deformation curves, failure mode and crack propagation are obtained from the experiment measurement. According to the experimental results, it can be found that he load carrying capacity of the cracked joints is decreased by more than 10% compared with the uncracked joint. The effect of crack depth on the load carrying capacity of CFCST T-joints seems to be slight. The failure mode of the cracked CFCST T-joints represents as plastic yielding rather than brittle fracture through experimental observation.

Keywords

concrete-filled circular steel tubular T-joint (CFCST T-joint); experimental study; fatigue crack; residual static strength; failure mode;

Citations & Related Records

Reference

1	Burdekin, F.M. (2002), "The fracture behaviour of welded tubular joint-an ESIS TC1-3 round robin on failure assessment methods Part III-UK BS7910 methodology", Eng. Fract Mech., 69(10), 1119-1127. DOI
2	Chen, B.C. and Huang, W.J. (2009), "Experimental study on ultimate bearing capacity of CFST directly-welded K-joints", China Ci, 42(12), 91-98.
3	Chiew, S.P., Lie, S.T., Lee, C.K. and Huang, Z.W. (2004), "Fatigue performance of cracked tubular T joints under combined loads. I: Experimental", Struct. Eng., 130(4), 562-571. DOI
4	Chiew, S.P., Lee, C.K., Lie, S.T. and Ji, H.L. (2007), "Fatigue behaviors of square-to-square hollow section T-joint with corner crack. I: Experimental studies", Eng. Fract Mech., 74(5), 703-720. DOI
5	Chiew, S.P., Lee, C.K., Lie, S.T. and Nguyen, T.B.N. (2009), "Fatigue study of partially overlapped circular hollow section K-joints Part 2: Experimental study and validation of numerical models", Eng. Fract. Mech., 76(15), 2408-2428. DOI
6	CIDECT (2000), Design Guide for Circular and Rectangular Hollow Section Joints under Fatigue Loading, Germany.
7	Lee, C.K., Chiew, S.P., Lie, S.T. and Ji, H.L. (2007), "Fatigue behaviors of square-to-square hollow section T-joint with corner crack. II: Numerical modeling", Eng. Fract. Mech., 74(5), 721-738. DOI
8	Lee, C.K., Chiew, S.P., Lie, S.T. and Nguyen, T.B.N. (2009), "Fatigue study of partially overlapped circular hollow section K-joints Part 1: Geometrical models and mesh generation", Eng. Fract. Mech., 76(16), 2445-2463. DOI
9	Lie, S.T., Yang and Z.M. (2009), "Fracture assessment of damaged square hollow section (SHS) K-joint using BS7910:2005", Eng. Fract. Mech., 76(9), 1303-1319. DOI
10	Lie, S.T., Chiew, S.P., Lee, C.K. and Huang, Z.W. (2004), "Fatigue performance of cracked tubular T joints under combined loads. II: Numerical", Struct. Eng., 130(4), 572-581. DOI
11	Lie, S.T., Chiew, S.P., Lee, C.K. and Yang, Z.M. (2006a), "Static strength of cracked square hollow section T joints under axial loads. I: Experimental", Struct. Eng., 132(3), 368-377. DOI
12	Lie, S.T., Lee, C.K., Chiew, S.P. and Yang, Z.M. (2006b), "Static strength of cracked square hollow section T joints under axial loads. II: Numerical", Struct. Eng., 132(3), 378-386. DOI
13	Lie, S.T., Zhang, B.F. and Shao, Y.B. (2007), "Residual strength of cracked circular hollow section (CHS) tubular K-joints", Proceedings of the 9th International Conference on Steel, Space & Composite Structures, Yantai & Beingjing, China, October.
14	Lie, S.T., Yang, Z.M. and Gho, W.M. (2009), "Validation of BS7910:2005 failure assessment diagrams for cracked square hollow section T-, Y- and K-joints", Int. J. Pres. Ves. Pip., 86(5), 335-344. DOI
15	Marshall, G.W. and Ainsworth, R.A. (2002), "The fracture behaviour of welded tubular joint-an ESIS TC1-3 round robin on failure assessment methods Part II: R6 analysis", Eng. Fract. Mech., 69(10), 1111-1118. DOI
16	Schindler, H.J., Primas, R. and Veidt, M. (2002), "The fracture behaviour of a welded tubular joint: An ESIS round robin on failure assessment methods Part V: Screening method by required toughness and plastic stability considerations", Eng. Fract. Mech., 69(10), 1149-1160. DOI
17	Song, S.Z. and Shao, Y.B. (2012), "Study on static strength of circular tubular T-joints with fatigue crack", Steel Constr., S, 509-517. [In Chinese]
18	Talei-Faz, B., Brennan, F.P. and Dover, W.D. (2004), "Residual static strength of high strength steel cracked tubular joints", Mar. Struct., 17(3-4), 291-309. DOI
19	Yang, Y.X. (1992), "The research of performance of tubular T-joints with fatigue crack", J. Zhengzhou Inst. Technol, 13(1), 42-46.
20	Yang, Z.M., Lie, S.T. and Gho, W.M. (2007), "Failure assessment of cracked square hollow section T-joints", Int. J. Pres. Ves. Pip., 84(4), 244-255. DOI
21	Zerbst, U. and Miyata, T. (2002), "The fracture behaviour of a welded tubular joint-an ESIS TC1.3 round robin on failure assessment methods Part VI: Application of WES 2805-1997", Eng. Fract. Mech., 69(10), 1161-1169. DOI
22	Zerbst, U., Heerens, J. and Schwalbe, K.H. (2002a), "The fracture behaviour of welded tubular joint-an ESIS TC1.3 round robin on failure assessment methods Part I: Experimental data base and brief summary of the results", Eng. Fract. Mech., 69(10), 1093-1110. DOI
23	Zerbst, U., Primas, R., Schindler, H.J., Heerens, J. and Schwalbe, K.H. (2002b), "The fracture behaviour of a welded tubular joint-an ESIS TC1-3 round robin on failure assessment methods Part IV: Application of the ETM 97/1", Eng. Fract Mech., 69(10), 1129-1148. DOI

2	(2015) Steel & Composite structures : an international journal Behavior of circular thin-walled steel tube confined concrete stub columns / 23 (2) , 229
5	(2017) Steel & Composite structures : an international journal Experimental studies on behaviour of tubular T-joints reinforced with grouted sleeve / 23 (5) , 585
4	(2017) Steel & Composite structures : an international journal Concrete-filled rectangular hollow section X joint with Perfobond Leister rib structural performance study: Ultimate and fatigue experimental Investigation / 24 (4) , 455
5	(2015) Steel & Composite structures : an international journal Static test on failure process of tubular T-joints with initial fatigue crack / 24 (5) , 615
4	(2015) Latin american journal of solids and structures Buckling of Axially Compressed Conical Shells with Multiple Imperfections / 18 (4) , e370