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Re-anchorage of a ruptured tendon in bonded post-tensioned concrete beams: Model validation

Re-anchorage of a ruptured tendon in bonded post-tensioned concrete beams: Model validation
Re-anchorage of a ruptured tendon in bonded post-tensioned concrete beams: Model validation
Many post-tensioned concrete bridges have been reported to have ruptured tendons due to corrosion [1] and the assessment of their residual structural capacity has to account for the possibility of re-anchorage of failed tendons. This paper presents an experimental programme to validate a numerical model developed by the authors for the re-anchorage of a ruptured tendon in post-tensioned concrete [2]. The experimental programme considered 33 post-tensioned concrete prisms, in which the rupture of tendon was simulated by releasing the tendon at one end. The full field displacement at concrete surface after release was measured using 3D Electronic Speckle Pattern Interferometry (ESPI). A wide range of parameters: tendon diameter, duct material, grout strength, concrete strength and shear reinforcement were investigated to validate the proposed model, which is found to be suitable for use in assessing post-tensioned concrete bridges with damaged tendons.
assessment, corrosion, electronic speckle pattern interferometry (ESPI), post-tensioned concrete, re-anchorage, residual structural capacity, rupture, tendon
1662-9795
302-309
Abdelatif, A.O.
8a4a76d3-03f1-4b84-9c32-54014b570a11
Owen, J.S.
63c08cad-d6cd-45ce-8313-d1d27a448f8c
Hussein, M.F.M.
3535c131-1710-4edc-a4a1-8fe67dee3f67
Abdelatif, A.O.
8a4a76d3-03f1-4b84-9c32-54014b570a11
Owen, J.S.
63c08cad-d6cd-45ce-8313-d1d27a448f8c
Hussein, M.F.M.
3535c131-1710-4edc-a4a1-8fe67dee3f67

Abdelatif, A.O., Owen, J.S. and Hussein, M.F.M. (2013) Re-anchorage of a ruptured tendon in bonded post-tensioned concrete beams: Model validation. Key Engineering Materials, 569-570, 302-309. (doi:10.4028/www.scientific.net/KEM.569-570.302).

Record type: Article

Abstract

Many post-tensioned concrete bridges have been reported to have ruptured tendons due to corrosion [1] and the assessment of their residual structural capacity has to account for the possibility of re-anchorage of failed tendons. This paper presents an experimental programme to validate a numerical model developed by the authors for the re-anchorage of a ruptured tendon in post-tensioned concrete [2]. The experimental programme considered 33 post-tensioned concrete prisms, in which the rupture of tendon was simulated by releasing the tendon at one end. The full field displacement at concrete surface after release was measured using 3D Electronic Speckle Pattern Interferometry (ESPI). A wide range of parameters: tendon diameter, duct material, grout strength, concrete strength and shear reinforcement were investigated to validate the proposed model, which is found to be suitable for use in assessing post-tensioned concrete bridges with damaged tendons.

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More information

Published date: July 2013
Additional Information: This paper presents an experimental programme to validate a numerical model developed by the authors for the re-anchorage of a ruptured tendon in post-tensioned concrete. The experimental programme considered 24 post-tensioned concrete prisms, in which the rupture of tendon was simulated by releasing the tendon at one end. The full field displacement at concrete surface after release was measured using 3D Electronic Speckle Pattern Interferometry (ESPI). The experimentations of a wide range of parameters which involve: tendon diameter, duct material, grout strength, concrete strength and shear reinforcement were used to validate the proposed model.
Keywords: assessment, corrosion, electronic speckle pattern interferometry (ESPI), post-tensioned concrete, re-anchorage, residual structural capacity, rupture, tendon
Organisations: Dynamics Group

Identifiers

Local EPrints ID: 354632
URI: http://eprints.soton.ac.uk/id/eprint/354632
DOI: doi:10.4028/www.scientific.net/KEM.569-570.302
ISSN: 1662-9795
PURE UUID: fe60b5b7-42f6-42f5-8542-b89a0168cff3

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Date deposited: 07 Aug 2013 15:32
Last modified: 14 Mar 2024 14:22

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Contributors

Author: A.O. Abdelatif
Author: J.S. Owen
Author: M.F.M. Hussein

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