Please use this identifier to cite or link to this item: https://hdl.handle.net/2440/124675
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Type: Journal article
Title: Closed-form expressions for predicting moment redistribution in reinforced concrete beams with application to conventional concrete and ultrahigh performance fiber reinforced concrete
Author: Sturm, A.B.
Visintin, P.
Oehlers, D.J.
Citation: Structural Concrete, 2020; 21(4):1577-1596
Publisher: Wiley
Issue Date: 2020
ISSN: 1464-4177
1751-7648
Statement of
Responsibility: 
Alexander B. Sturm, Phillip Visintin, Deric J. Oehlers
Abstract: The redistribution of moment within a statically indeterminate reinforced concrete beam at the ultimate limit state occurs through variations in the flexural rigidities and through the formation of hinges. The phenomena of moment redistribution (MR) is used to increase the efficiency of reinforced concrete design by allowing moments to be transferred away from critical cross sections thereby resulting in lower design moments. To allow for this effect in design, two main approaches are adopted. The first is to perform an elastic analysis and then to adjust the resulting distribution of moment using a codified MR factor. The second is to apply a plastic analysis allowing for the formation of hinges, and to calculate the rotational requirements at the hinges from first principles. This paper uses fundamental plastic analyses to derive closed‐form expressions for the hinge rotational requirements for full MR (that required to achieve the theoretical maximum applied load within the beam based on the moment capacity of sections within the beam). These closed‐form solutions are then used to quantify the maximum load on a beam when the rotational capacities at a hinge are less than the rotational requirements for full MR (partial MR). Closed‐form solutions are then used to derive MR factors which do not require semimechanical calibration.
Keywords: Fiber reinforced concrete; moment redistribution; reinforced concrete; ultrahigh performance concrete
Description: Publication Date : 2020-03-27
Rights: © 2020 fib. International Federation for Structural Concrete
DOI: 10.1002/suco.201900498
Grant ID: http://purl.org/au-research/grants/arc/DP190102650
Appears in Collections:Aurora harvest 8
Civil and Environmental Engineering publications

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