Please use this identifier to cite or link to this item: https://hdl.handle.net/20.500.14279/14244
Title: Design Procedure and Simplified Equations for the Flexural Capacity of Concrete Members Reinforced with Fibre-reinforced Polymer Bars
Authors: Torres, Lluís 
Neocleous, Kyriacos 
Pilakoutas, Kypros 
metadata.dc.contributor.other: Νεοκλέους, Κυριάκος
Πιλακούτας, Κύπρος
Major Field of Science: Engineering and Technology
Field Category: Civil Engineering
Keywords: Concrete crushing;Design;Flexural capacity;FRP bars;FRP rupture;Reinforced concrete
Issue Date: 4-Jun-2012
Source: Structural Concrete,2012, vol. 13, no. 2, pp.119-129
Volume: 13
Issue: 2
Start page: 119
End page: 129
Journal: Structural Concrete 
Abstract: The predominant failure mode of concrete members reinforced with fibre-reinforced polymer (FRP) bars is flexural, due to either concrete crushing or FRP rupture. Many design tools have been developed for the flexural design of FRP-reinforced concrete. These tools are sufficiently accurate, but an iterative procedure is required when dealing with flexural failure due to FRP rupture. In addition, despite the fact that the design concepts involved are similar to those used for conventional steel-reinforced concrete, the changes in the design philosophy and the linear behaviour up to rupture of the FRP bars lead to the sectional properties having a different influence on the design, which not everyone may be familiar with. Therefore, this study proposes a general methodology for evaluating the design flexural capacity of FRP-reinforced concrete sections. This methodology is based on the design provisions of Eurocode 2 and comprises non-dimensional, closed-form equations, derived independently of the concrete and FRP characteristics. The proposed methodology can be used to derive universal dimensionless design charts as well as tables. The accuracy of the proposed design tools has been verified by comparing the predictions with the experimental results of 98 beams, which are available in the published literature. Copyright © 2012 Ernst & Sohn Verlag für Architektur und technische Wissenschaften GmbH & Co. KG, Berlin.
ISSN: 17517648
DOI: 10.1002/suco.201100045
Rights: © 2012 Ernst & Sohn
Type: Article
Affiliation : University of Girona 
University of Sheffield 
Publication Type: Peer Reviewed
Appears in Collections:Άρθρα/Articles

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