Bridge Girder Heavily Damaged by Impact Vehicle Load: A Case Strategy for Structure Assessment and FRP Strengthening
Episodes like impact of traffic vehicles on existing bridges occur very frequently manly due to the increase of traffic volume and vehicles dimensions respect of actual roads and overpass geometry. An interesting case of FRP strengthening on existing deck bridge has been applied to one overpass of s...
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| Published in | Applied Mechanics and Materials Vol. 82; pp. 606 - 611 |
|---|---|
| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
Zurich
Trans Tech Publications Ltd
01.07.2011
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| Subjects | |
| Online Access | Get full text |
| ISBN | 3037852178 9783037852170 |
| ISSN | 1660-9336 1662-7482 1662-7482 |
| DOI | 10.4028/www.scientific.net/AMM.82.606 |
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| Abstract | Episodes like impact of traffic vehicles on existing bridges occur very frequently manly due to the increase of traffic volume and vehicles dimensions respect of actual roads and overpass geometry. An interesting case of FRP strengthening on existing deck bridge has been applied to one overpass of state road SS36 (Lecco, Italy). Heavy damage at both intrados and webs of I girder prestress beams was caused by impact of a vehicle higher then the vertical clear dimension between main road and crossing overpass. Extensive damage to concrete, subject to spalling and cracking, and complete failure of ordinary reinforcement and prestress tendons was recognized by detailed inspection. Main concern of strengthening strategy was driven by absence of original detail design project, because lack of project documents as drawings or calculation reports from road owner and maintenance office. For this reason it was necessary to apply “back analysis” strategy of strengthening, assessing original strength contribution (both in flexure and shear) of each bridge girder portion which showed evident damage or failure. After repairing of damaged concrete by specific mortar, to recover original element geometry and inertia, carbon FRP sheets was designed and applied at free surface to increase both flexure and shear prestress concrete girder capacity. Main advantages of this strengthening application were shown by minimize time and cost of repairing without closing of main road. |
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| AbstractList | Episodes like impact of traffic vehicles on existing bridges occur very frequently manly due to the increase of traffic volume and vehicles dimensions respect of actual roads and overpass geometry. An interesting case of FRP strengthening on existing deck bridge has been applied to one overpass of state road SS36 (Lecco, Italy). Heavy damage at both intrados and webs of I girder prestress beams was caused by impact of a vehicle higher then the vertical clear dimension between main road and crossing overpass. Extensive damage to concrete, subject to spalling and cracking, and complete failure of ordinary reinforcement and prestress tendons was recognized by detailed inspection. Main concern of strengthening strategy was driven by absence of original detail design project, because lack of project documents as drawings or calculation reports from road owner and maintenance office. For this reason it was necessary to apply "back analysis" strategy of strengthening, assessing original strength contribution (both in flexure and shear) of each bridge girder portion which showed evident damage or failure. After repairing of damaged concrete by specific mortar, to recover original element geometry and inertia, carbon FRP sheets was designed and applied at free surface to increase both flexure and shear prestress concrete girder capacity. Main advantages of this strengthening application were shown by minimize time and cost of repairing without closing of main road. |
| Author | Beltrami, Carlo |
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| Cites_doi | 10.2307/1479399 10.1061/40691(2003)21 |
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| Copyright | 2011 Trans Tech Publications Ltd Copyright Trans Tech Publications Ltd. Jul 2011 |
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| DOI | 10.4028/www.scientific.net/AMM.82.606 |
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| Keywords | Strengthening Strategy Carbon FRP Strengthening Vehicle Impact Load Prestress Concrete Bridge Girder Beams |
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| Title | Bridge Girder Heavily Damaged by Impact Vehicle Load: A Case Strategy for Structure Assessment and FRP Strengthening |
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