Fatigue behaviour of welded joints assembled by longitudinal corrugated plates

Zhi-yu Wang , Qing-yuan Wang , Yong-jie Liu , Mei Sun

Journal of Central South University ›› 2015, Vol. 22 ›› Issue (7) : 2752 -2760.

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Journal of Central South University ›› 2015, Vol. 22 ›› Issue (7) : 2752 -2760. DOI: 10.1007/s11771-015-2805-2
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Fatigue behaviour of welded joints assembled by longitudinal corrugated plates

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Abstract

Fatigue is usually the cause for the cracks identified at bridge elements in service. With an increase in the introduction of corrugated steel web girders in recent highway bridge construction, the understanding of the fatigue behaviour of welded details in such structures becomes an important issue for the design. The typical welded details were represented as welded joints assembled by longitudinal corrugated plates. All the experiments were performed under fatigue loading using a servo-control testing machine. The test results from the failure mode observation with the aid of infrared thermo-graph technology show that the failure manner of these welded joints is comparable to that of the corrugated steel web beams reported previously. It is indicated from the stiffness degradation analysis that the welded joints with larger corrugation angle have higher stiffness and greater stiffness degradation in the notable stiffness degradation range. It is shown from the test S-N relations based on the free regression and forced regression analyses that there is a good linear dependence between lg(N) and lg(ΔS). It is also demonstrated that the proposed fracture mechanics analytical model is able to give a prediction slightly lower but on the safe side for the mean stresses at 2 million cycles of the test welded joints.

Keywords

corrugated web / fatigue behaviour / S-N relation / stiffness degradation / fracture mechanics

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Zhi-yu Wang, Qing-yuan Wang, Yong-jie Liu, Mei Sun. Fatigue behaviour of welded joints assembled by longitudinal corrugated plates. Journal of Central South University, 2015, 22(7): 2752-2760 DOI:10.1007/s11771-015-2805-2

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References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]

WangZ-y, WangQ-y, ChenY-y, ShiX-s, OuyangW-xin. Research progress of fatigue behaviour of corrugated web girders [J]. Journal of Highway and Transportation Research and Development, 2010, 27(6): 64-71
[2]

HeJ, LiuY-q, ChenA-r, TeruhikoY. Mechanical behavior and analysis of composite bridges with corrugated steel webs state-of-the-art [J]. International Journal of Steel Structures, 2012, 12(3): 321-338

[3]

IbrahimS A, El-DakhakhniW W, ElgaalyM. Behaviour of bridge girders with corrugated webs under monotonic and cyclic loading [J]. Engineering Structures, 2006, 28: 1941-1955

[4]

SauseR, AbbasH H, DriverR G, AnamiK, FisherJ W. Fatigue life of girders with trapezoidal corrugated webs [J]. Journal of Structural Engineering, ASCE, 2006, 132(7): 1070-1078

[5]

LiG-q, LuoX-f, SunF-f, FanXin. Experimental investigation on fatigue performance of welded H-beam with corrugated webs [J]. Journal of Building Structures, 201296-103
[6]

KovesdiB, DunnaiL. Fatigue life of girders with trapezoidally corrugated webs: An experimental study [J]. International Journal of Fatigue, 2014, 64: 22-32

[7]

WangZ-y, TanL-f, WangQ-yuan. Fatigue strength evaluation of welded structural details in corrugated steel web girders [J]. International Journal of Steel Structures, 2013, 13: 707-721

[8]

WangZ-y, WangQ-yuan. Fatigue assessment of welds joining corrugated steel webs to flange plates [J]. Engineering Structures, 2014, 73: 1-12

[9]

YamadaK, KatoS, OkabeA, KimLT, OjioT. Fatigue test of tensile plate with out-of-plane gussets inclined to applied stress [J]. Journal of Structural Engineering, 2001, 47: 1039-1045
[10]

GB/T1591-2008.High strength low alloy structural steels [S], 2008
[11]

PalumboD, GaliettiU. Characterisation of steel welded joints by infrared thermographic methods [J]. Quantitative Infrared Thermography Journal, 2014, 11: 29-42

[12]

CarrascalI. Determination of the Paris’ law constants by means of infrared thermographic techniques [J]. Polymer Testing, 2014, 40: 39-45

[13]

SivaselvanM V. Hysteretic models with stiffness and strength degradation in a mathematical programming format [J]. International Journal of Non-linear Mechanics, 2013, 51: 10-27

[14]

The American Association of State Highway and Transportation officials (2014). AASHTO LRFD bridge design specifications [S]. 2014.
[15]

MontgomeryD C, PeckE A, ViningG GIntroduction to linear regression analysis [M], 20125th edEnglandWiley-Blackwell
[16]

MaddoxS JFatigue strength of welded structures [M], 20072nd edCambridge, EnglandCRC Press
[17]

LazzarinP, BertoF, ZappalortoM. Rapid calculations of notch stress intensity factors based on averaged strain energy density from coarse meshes: Theoretical bases and applications [J]. International Journal of Fatigue, 2010, 32(10): 1559-1567

[18]

AlbrechtP, YamadaK. Rapid calculation of stress intensity factors [J]. Journal of the Structural Division, American Society of Civil Engineers, 1977, 103(2): 377-389
[19]

AlanT ZFracture mechanics [M], 2012DeutschlandSpringer Science & Business Media
[20]

LiH-y, ZhangX-wang. Study on fracture toughness and fatigue crack growth rate of steel Q345 [J]. Hot Working Technology, 2007, 36(24): 49-51
[21]

WangZ-y, WangQ-yuan. Fatigue strength of CFRP strengthened welded joints with corrugated steel plates [J]. Composites: Part B, 2015, 72: 30-39

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