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Abstract

This paper investigates the behaviour of square hollow section (SHS) T-joints under static axial tension for the determination of stress concentration factors (SCFs) at the hot spot locations. Five empty and corresponding concrete-filled SHS-SHS T-joint connections were tested experimentally and numerically. The experimental investigation was carried out by attaching strain gauges onto the SHS-SHS T-joint specimens. The numerical study was then conducted by developing three-dimensional finite element (FE) T-joint models using ABAQUS finite element analysis software for capturing the distribution of the SCFs at the hot spot locations. The results showed that there is a good agreement between the experimental and numerical SCFs. A series of formulae for the prediction of SCF in concrete-filled SHS T-joints under tension were proposed, and good agreement was achieved between the maximum SCFs in SHS T-joints calculated from FE T-joint models and those from the predicted formulae.

Keywords

square hollow section stress concentration factor tension load concrete-filled T-joints static tests

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References

Chen

Feng

Ruan

(2016) Behaviour of steel-concrete-steel SHS X-joints under axial compression. Journal of Constructional Steel Research 122: 469–487.

Cheng

Qian

Zhao

X-L

(2015) Numerical investigation on stress concentration factors of square bird-beak SHS T-joints subject to axial forces. Thin-Walled Structures 94: 435–445.

Feng

Young

(2013) Stress concentration factors of cold-formed stainless steel tubular X-joints. Journal of Constructional Steel Research 91: 26–41.

Jiang

Liu

Fam

(2018) Stress concentration factors in joints of square hollow section (SHS) brace and concrete-filled SHS chord under axial tension in brace. Thin-Walled Structures 132: 79–92.

Jiang

Liu

Fam

(2019a) Stress concentration factors in concrete-filled square hollow section joints with perfobond ribs. Engineering Structures 181: 165–180.

Jiang

Liu

Fam

, et al. (2019c) Fatigue behaviour of non-integral Y-joint of concrete-filled rectangular hollow section continuous chord stiffened with perfobond ribs. Engineering Structures 191: 611–624.

Jiang

Liu

Fam

, et al. (2019b) Stress concentration factor parametric formulae for concrete-filled rectangular hollow section K-joints with perfobond ribs. Journal of Constructional Steel Research 160: 579–597.

Jiang

Liu

, et al. (2020) Experimental and numerical analysis of the stress concentration factor for concrete-filled square hollow section Y-joints. Advances in Structural Engineering 23(5): 869–883.

Mashiri

(2001) Thin-Walled Tubular Connections Under Fatigue Loading. [PhD Thesis], Monash University, Melbourne, Australia.

10.

Mashiri

Zhao

X-L

(2010) Square hollow section (SHS) T-joints with concrete-filled chords subjected to in-plane fatigue loading in the brace. Thin-Walled Structures 48(2): 150–158.

11.

Matti

Mashiri

(2019) Experimental and numerical studies on SCFs of empty SHS-SHS T-joints under in-plane bending. International Journal of Engineering, Construction and Computing 1: 17–31.

12.

Matti

Mashiri

(2020a) Experimental and numerical studies on SCFs of SHS T-Joints subjected to static out-of-plane bending. Thin-Walled Structures 146: 106453.

13.

Matti

Mashiri

(2020b) Parametric study on SCFs of SHS-SHS T-joint connections under out-of-plane brace bending. Engineering Structures 221: 111032.

14.

AS 4100-1998 (1998) Steel structures. SAI Global Database. Standards Australia Online.

15.

Tong

Liu

, et al. (2014) Stress concentration factors of diamond bird-beak SHS T-joints under brace loading. Thin-Walled Structures 74: 201–212.

16.

van Wingerde

(1992) The fatigue behaviour of T and X joints made of square hollow sections. Heron 37(2): 1–180.

17.

Yang

Y-F

Hou

Meng

C-Y

, et al. (2015) Investigation on square concrete filled double-skin steel tube (CFDST) subjected to local bearing force: experiments. Thin-Walled Structures 94: 394–409.

18.

Zhao

Herion

Packer

, et al. (2001) Design Guide for Circular and Rectangular Hollow Section Welded Joints under Fatigue Loading. Koln, Germany: TüV-Verlag.

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Experimental,numerical and parametric studies on stress concentration factors of T-joints under tension

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Supplementary Material