Structural Behaviour Of Distressed And Strengthened Post-Tensioned Box Girder Beams

Box girder prestressed concrete beams are used widely in bridge construction due to its efficient structural response under flexural as well as torsional loading. Prestressing can be either internally or externally applied to a beam. Every year, many prestressed concrete bridge girders are damaged d...

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Main Author: Bukola Ohu, Rachael
Format: Thesis
Language:English
English
Published: 2007
Online Access:http://psasir.upm.edu.my/id/eprint/5261/1/FK_2007_51.pdf
http://psasir.upm.edu.my/id/eprint/5261/
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spelling my.upm.eprints.52612013-05-27T07:21:33Z http://psasir.upm.edu.my/id/eprint/5261/ Structural Behaviour Of Distressed And Strengthened Post-Tensioned Box Girder Beams Bukola Ohu, Rachael Box girder prestressed concrete beams are used widely in bridge construction due to its efficient structural response under flexural as well as torsional loading. Prestressing can be either internally or externally applied to a beam. Every year, many prestressed concrete bridge girders are damaged due to accidental load and /or due to an aggressive environment surrounding the bridge. Corrosion and /or snapping of prestressing cables will cause serious damage in the bridge structure. Many researchers have covered the strengthening of prestressed concrete girders under flexure or under shear. Very limited research is available on the significance of different strengthening techniques under combined shear–flexural loading. Furthermore, torsional load is another important aspect which needs to be considered when discussing the strengthening techniques effect This research covers the effect of snapping of externally prestressed cables on the structural behaviour of box girder bridge beams subjected to a combined flexural – shear – torsional load. Five full scale box-girder beams were cast and tested experimentally. The first beam specimen acted as a control beam while in the remaining four beam specimens, 15% of the prestressing cable area was snapped. After snapping, one specimen was tested till failure and the other three specimens are strengthened using different techniques and tested till failure. To restore the beam capacity, three different strengthening techniques were used under the same load combination. The techniques adopted for this research are externally bonded CFRP laminates, extra longitudinal prestress cables and vertical prestressing applied by using bolts and nuts system. The results show that snapping of 15% of the prestressing cable will result in a 74% increase in deformation at service load and a 22% decrease in ultimate load. Furthermore, the snapping of the prestress wire will increase the stresses in the cables by 70% as compared to the unsnapped beam. All the strengthening techniques used can effectively restore the beam capacity at service and overcome the effect of cable snapping, however, at ultimate the restorative capacity of one of the strengthening techniques could not be fully established due to a localized failure. 2007 Thesis NonPeerReviewed application/pdf en http://psasir.upm.edu.my/id/eprint/5261/1/FK_2007_51.pdf Bukola Ohu, Rachael (2007) Structural Behaviour Of Distressed And Strengthened Post-Tensioned Box Girder Beams. Masters thesis, Universiti Putra Malaysia. English
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
language English
English
description Box girder prestressed concrete beams are used widely in bridge construction due to its efficient structural response under flexural as well as torsional loading. Prestressing can be either internally or externally applied to a beam. Every year, many prestressed concrete bridge girders are damaged due to accidental load and /or due to an aggressive environment surrounding the bridge. Corrosion and /or snapping of prestressing cables will cause serious damage in the bridge structure. Many researchers have covered the strengthening of prestressed concrete girders under flexure or under shear. Very limited research is available on the significance of different strengthening techniques under combined shear–flexural loading. Furthermore, torsional load is another important aspect which needs to be considered when discussing the strengthening techniques effect This research covers the effect of snapping of externally prestressed cables on the structural behaviour of box girder bridge beams subjected to a combined flexural – shear – torsional load. Five full scale box-girder beams were cast and tested experimentally. The first beam specimen acted as a control beam while in the remaining four beam specimens, 15% of the prestressing cable area was snapped. After snapping, one specimen was tested till failure and the other three specimens are strengthened using different techniques and tested till failure. To restore the beam capacity, three different strengthening techniques were used under the same load combination. The techniques adopted for this research are externally bonded CFRP laminates, extra longitudinal prestress cables and vertical prestressing applied by using bolts and nuts system. The results show that snapping of 15% of the prestressing cable will result in a 74% increase in deformation at service load and a 22% decrease in ultimate load. Furthermore, the snapping of the prestress wire will increase the stresses in the cables by 70% as compared to the unsnapped beam. All the strengthening techniques used can effectively restore the beam capacity at service and overcome the effect of cable snapping, however, at ultimate the restorative capacity of one of the strengthening techniques could not be fully established due to a localized failure.
format Thesis
author Bukola Ohu, Rachael
spellingShingle Bukola Ohu, Rachael
Structural Behaviour Of Distressed And Strengthened Post-Tensioned Box Girder Beams
author_facet Bukola Ohu, Rachael
author_sort Bukola Ohu, Rachael
title Structural Behaviour Of Distressed And Strengthened Post-Tensioned Box Girder Beams
title_short Structural Behaviour Of Distressed And Strengthened Post-Tensioned Box Girder Beams
title_full Structural Behaviour Of Distressed And Strengthened Post-Tensioned Box Girder Beams
title_fullStr Structural Behaviour Of Distressed And Strengthened Post-Tensioned Box Girder Beams
title_full_unstemmed Structural Behaviour Of Distressed And Strengthened Post-Tensioned Box Girder Beams
title_sort structural behaviour of distressed and strengthened post-tensioned box girder beams
publishDate 2007
url http://psasir.upm.edu.my/id/eprint/5261/1/FK_2007_51.pdf
http://psasir.upm.edu.my/id/eprint/5261/
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score 13.211869