Litcius/Paper detail

Shear-Out Capacity of Bolted Connections in Cold-Reduced Steel Sheets

Haoyu Xing, Lip H. Teh, Zhengyi Jiang, Aziz Ahmed

2020Journal of Structural Engineering28 citationsDOI

Abstract

This study examined the accuracy of design equations specified in the North American, European, and Australian/New Zealand standards for determining the shear-out capacity of bolted connections in cold-reduced steel sheets. The tested variables were end distance, bolt (hole) diameter, sheet thickness, edge distance, and material properties. The paper showed that the catenary action in a narrow strip downstream of the bolt has a significant effect on the shear-out capacity, and is not accounted for in the design codes. The contribution of catenary action was corroborated with finite-element analysis results. The paper also showed that the edge distance of a bolted connection has insignificant effects on the shear-out capacity, although it affects the failure mode. An additional finding is that shearing (rather than sawing) the end of a cold-reduced steel sheet sometimes can change the failure mode into end splitting, but not to the same extent as in hot-rolled steel plates. Based on the test results of 60 single-bolted specimens with end distances ranging from 1.25 to 3.0 times the bolt diameter, this paper derived a shear-out equation that is dimensionally consistent, continuous, and transparent, and that is much more accurate than the code equations. The proposed equation, which includes the bolt diameter as a parameter, was verified against independent test specimens with end distances as small as 1.0 times the bolt diameter. A resistance factor of 0.70 is recommended for use with the proposed equation for determining the shear-out capacity of bolted connections in cold-reduced steel sheets.

Topics & Concepts

CatenaryShearing (physics)Structural engineeringShear (geology)Cold-formed steelFastenerMaterials scienceCold formingFailure mode and effects analysisEnhanced Data Rates for GSM EvolutionFinite element methodComposite materialEngineeringTelecommunicationsStructural Load-Bearing AnalysisGeotechnical Engineering and Underground StructuresFire effects on concrete materials