The validation of an analytical model recently proposed for evaluation of the shear capacity in Reinforced Concrete (RC) beams containing multiple inclination of transverse stirrups is presented. The model is a suitable extension of that currently proposed in Eurocode 2 for the evaluation of the shear resistance, and it is derived by means of the the variable-inclination stressfield theory based on Nielsen’s plastic approach. Experimental and numerical data available in the literature on Hybrid Steel-Trussed Concrete Beams (HSTCBs) are used for model validation and result discussion. Finally, also the comparison with a different analytical approach for the assessment of the shear resistance of HSTCBs is provided.

Validation of a Shear Model for RC and Hybrid Beams with Two Different Inclinations of Transversal Reinforcement / Colajanni, Piero; LA MENDOLA, Lidia; Monaco, Alessia; Recupero, Antonino - In: Applied Mechanics and Materials - Advances in Civil and Infrastructure Engineering II / Giorgio Monti and Enzo Martinelli. - STAMPA. - [s.l] : Trans Tech Publications Ltd, Switzerland, 2016. - ISBN 978-3-03835-693-6. - pp. 505-512 [10.4028/www.scientific.net/AMM.847.505]

Validation of a Shear Model for RC and Hybrid Beams with Two Different Inclinations of Transversal Reinforcement

MONACO, Alessia;
2016

Abstract

The validation of an analytical model recently proposed for evaluation of the shear capacity in Reinforced Concrete (RC) beams containing multiple inclination of transverse stirrups is presented. The model is a suitable extension of that currently proposed in Eurocode 2 for the evaluation of the shear resistance, and it is derived by means of the the variable-inclination stressfield theory based on Nielsen’s plastic approach. Experimental and numerical data available in the literature on Hybrid Steel-Trussed Concrete Beams (HSTCBs) are used for model validation and result discussion. Finally, also the comparison with a different analytical approach for the assessment of the shear resistance of HSTCBs is provided.
2016
978-3-03835-693-6
Applied Mechanics and Materials - Advances in Civil and Infrastructure Engineering II
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2716369
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