Luong test for the characterization of the shear post-cracking response of fiber reinforced concrete

•Proposal of the Luong test to characterize the residual shear strength of FRC.•Validation through experimental program involving Push-off and Luong tests.•Influence of geometry of specimen, type of fiber and fiber content are assessed.•In-depth statistical analysis of results reveals it is a simple...

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Veröffentlicht in:	Construction & building materials 2017-09, Vol.149, p.207-217
Hauptverfasser:	Blanco, A., Aire, C., Pujadas, P., Cavalaro, S.H.P.
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis Educational assessment Enginyeria civil Formigó armat FRC Luong test Materials i estructures Materials i estructures de formigó Proves Push-off test Quality control Reinforced concrete Residual strength Shear Testing Àrees temàtiques de la UPC
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creator	Blanco, A. Aire, C. Pujadas, P. Cavalaro, S.H.P.
description	•Proposal of the Luong test to characterize the residual shear strength of FRC.•Validation through experimental program involving Push-off and Luong tests.•Influence of geometry of specimen, type of fiber and fiber content are assessed.•In-depth statistical analysis of results reveals it is a simple and valid test. The behavior of concrete subjected to shear can be significantly improved by the addition of fibers, which may partially or totally substitute the traditional steel stirrups (also known as links). Design recommendations include formulations to account for the contribution of the fibers. However, these formulations take the results of small-scale bending tests as input parameters. The main reason for that is the lack of standardized tests and the difficulty to assess direct shear in fiber reinforced concrete (FRC) both for the design and for the quality control. The present study proposes a test for the characterization of the post-cracking shear response of FRC. The test is validated through an experimental program with conventional concrete and FRC. The influence of different parameters (geometry of the specimen, the type and the content of fiber) is assessed and a comparison is made between the push-off test and the one proposed here. Results of an in-depth statistical analysis indicate that the latter is a simpler and valid alternative to evaluate the post-cracking shear response of FRC.
doi_str_mv	10.1016/j.conbuildmat.2017.05.135
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The behavior of concrete subjected to shear can be significantly improved by the addition of fibers, which may partially or totally substitute the traditional steel stirrups (also known as links). Design recommendations include formulations to account for the contribution of the fibers. However, these formulations take the results of small-scale bending tests as input parameters. The main reason for that is the lack of standardized tests and the difficulty to assess direct shear in fiber reinforced concrete (FRC) both for the design and for the quality control. The present study proposes a test for the characterization of the post-cracking shear response of FRC. The test is validated through an experimental program with conventional concrete and FRC. The influence of different parameters (geometry of the specimen, the type and the content of fiber) is assessed and a comparison is made between the push-off test and the one proposed here. 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subjects	Analysis Educational assessment Enginyeria civil Formigó armat FRC Luong test Materials i estructures Materials i estructures de formigó Proves Push-off test Quality control Reinforced concrete Residual strength Shear Testing Àrees temàtiques de la UPC
title	Luong test for the characterization of the shear post-cracking response of fiber reinforced concrete
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