This paper presents a computational procedure to evaluate the shear strength contribution provided to a reinforced concrete (RC) beam by a system of near-surface mounted (NSM) fiber reinforced polymer (FRP) strips. This procedure is based on the evaluation of (1) the constitutive law of the average-available bond-length NSM FRP strip effectively crossing the shear crack, and (2) the maximum effective capacity it can attain during the loading process of the strengthened beam. Because of complex phenomena such as (1) interaction between forces transferred through bond to the surrounding concrete and the concrete fracture, and (2) interaction among adjacent strips, the NSM FRP strip constitutive law is largely different than the linear elastic one characterizing the FRP behavior in tension. Once the constitutive law of the average-available bond-length NSM strip is reliably known, its maximum effective capacity can be determined by imposing a coherent kinematic mechanism. The self-contained and ready-to-implement set of analytical equations and logical operations is presented along with the main underlying physical-mechanical principles and assumptions. The formulation proposed is appraised against some of the most recent experimental results, and its predictions are also compared with those obtained by a recently developed more sophisticated model. DOI: 10.1061/(ASCE)ST.1943-541X.0000370. (C) 2011 American Society of Civil Engineers.

Theoretical Model and Computational Procedure to Evaluate the NSM FRP Strips Shear Strength Contribution to a RC Beam / Bianco, Vincenzo; Monti, Giorgio; J. A. O., Barros. - In: JOURNAL OF STRUCTURAL ENGINEERING. - ISSN 0733-9445. - STAMPA. - 137:11(2011), pp. 1359-1372. [10.1061/(asce)st.1943-541x.0000370]

Theoretical Model and Computational Procedure to Evaluate the NSM FRP Strips Shear Strength Contribution to a RC Beam

BIANCO, VINCENZO;MONTI, Giorgio;
2011

Abstract

This paper presents a computational procedure to evaluate the shear strength contribution provided to a reinforced concrete (RC) beam by a system of near-surface mounted (NSM) fiber reinforced polymer (FRP) strips. This procedure is based on the evaluation of (1) the constitutive law of the average-available bond-length NSM FRP strip effectively crossing the shear crack, and (2) the maximum effective capacity it can attain during the loading process of the strengthened beam. Because of complex phenomena such as (1) interaction between forces transferred through bond to the surrounding concrete and the concrete fracture, and (2) interaction among adjacent strips, the NSM FRP strip constitutive law is largely different than the linear elastic one characterizing the FRP behavior in tension. Once the constitutive law of the average-available bond-length NSM strip is reliably known, its maximum effective capacity can be determined by imposing a coherent kinematic mechanism. The self-contained and ready-to-implement set of analytical equations and logical operations is presented along with the main underlying physical-mechanical principles and assumptions. The formulation proposed is appraised against some of the most recent experimental results, and its predictions are also compared with those obtained by a recently developed more sophisticated model. DOI: 10.1061/(ASCE)ST.1943-541X.0000370. (C) 2011 American Society of Civil Engineers.
2011
computational procedure; concrete fracture; debonding; frp; nsm; shear strengthening; tensile rupture
01 Pubblicazione su rivista::01a Articolo in rivista
Theoretical Model and Computational Procedure to Evaluate the NSM FRP Strips Shear Strength Contribution to a RC Beam / Bianco, Vincenzo; Monti, Giorgio; J. A. O., Barros. - In: JOURNAL OF STRUCTURAL ENGINEERING. - ISSN 0733-9445. - STAMPA. - 137:11(2011), pp. 1359-1372. [10.1061/(asce)st.1943-541x.0000370]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/377874
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