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Aluminium SHS and RHS subjected to biaxial bending: Experimental testing, modelling and design recommendations
Bock, Marina Theofanous, Marios Dirar, Samir Lipitkas, Nikolaos
Bock, Marina
Theofanous, Marios
Dirar, Samir
Lipitkas, Nikolaos
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2020-11-06
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Abstract
Traditionally, experimental research on structural members has focused on the isolated fundamental cases of pure compression/tension, major axis bending or minor axis bending, whilst beam columns under compression and uniaxial bending have also been tested. Biaxial bending has received less experimental attention and it has always been assumed that tests on the idealised cases of major axis bending and minor axis bending can be used together with numerical predictions of biaxial bending to determine suitable interaction curves. This investigation reports an experimental study on aluminium flexural members with variable angles between the plane of bending and the major axis of the cross-section. Cross-sections with various thicknesses and hence plate slenderness values are considered. The experimental results are used to validate a numerical model that allows a large number of cross-sectional dimensions and loading cases to be examined. Following parametric studies and generation of numerical data, the design provisions for biaxial bending specified in EN 1999-1-1 are compared against the predictions provided by the Continuous Strength Method (CSM) and a new proposed method. The comparison shows that EN 1999-1-1 provides overly conservative results with biaxial bending resistances underestimated by approximately 17%. Both the CSM and the proposed method are observed to significantly improve predictions by reducing, on average, underestimations down to 3% and 1%, respectively, and consequently enabling a better usage of the material and ultimately a more economic and sustainable design.
Citation
Bock, M., Theofanous, M., Dirar, S. and Lipitkas, N. (2021) Aluminium SHS and RHS subjected to biaxi, al bending: Experimental testing, modelling and design recommendations, Engineering Structures, 227, 111468.
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Journal article
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en
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This is an accepted manuscript of an article published by Elsevier in Engineering Structures on 06/11/2020, available online: https://doi.org/10.1016/j.engstruct.2020.111468
The accepted version of the publication may differ from the final published version.
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0141-0296