Prestress Loss and Bending Capacity of Pre-cracked 40 Year-Old PC Beams Exposed to Marine Environment

Prestress Loss and Bending Capacity of Pre-cracked 40 Year-Old PC Beams Exposed to Marine Environment

Six prestressed concrete beams (PC beam) were used for evaluation, consist of four post-tension beams (PC-O) and two pre-tension beams (PC-R). In order to investigate the effect of crack on prestress loss and bending capacity after long-term exposed, prestressed concrete beams were pre-crack and the...

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Main Authors: Dasar Amry, Irmawaty Rita, Hamada Hidenori, Sagawa Yasutaka, Yamamoto Daisuke
Format: Article
Language:English
Published: EDP Sciences 2016-01-01
Series:MATEC Web of Conferences
Online Access:http://dx.doi.org/10.1051/matecconf/20164702008
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spelling doaj-1f7b283809894548a69ced9d8186ce632021-02-02T04:18:07ZengEDP SciencesMATEC Web of Conferences2261-236X2016-01-01470200810.1051/matecconf/20164702008matecconf_iconcees2016_02008Prestress Loss and Bending Capacity of Pre-cracked 40 Year-Old PC Beams Exposed to Marine EnvironmentDasar Amry0Irmawaty Rita1Hamada Hidenori2Sagawa Yasutaka3Yamamoto Daisuke4Graduate School of Engineering, Kyushu UniversityCivil Engineering Department, Hasanuddin UniversityFaculty of Engineering, Kyushu UniversityFaculty of Engineering, Kyushu UniversityFaculty of Engineering, Kyushu UniversitySix prestressed concrete beams (PC beam) were used for evaluation, consist of four post-tension beams (PC-O) and two pre-tension beams (PC-R). In order to investigate the effect of crack on prestress loss and bending capacity after long-term exposed, prestressed concrete beams were pre-crack and then exposed to marine environment. Experimental work was carried out to evaluate PC beams performance after long-term exposed. In addition, visual observations and load bearing capacity test was carried out. Furthermore, evaluation of prestress loss conducted using three-point loading bending test and the remaining tendon forces in the beam were determined using Crack Re-opening Method. The experimental results revealed that prestress loss was increased due to corrosion of strand/wire which affected by the pre-crack on the prestressed beams. Approximately a prestress loss around 26% and 30% was recorded for post-tension and pre-tension beams respectively.http://dx.doi.org/10.1051/matecconf/20164702008
collection DOAJ
language English
format Article
sources DOAJ
author Dasar Amry
Irmawaty Rita
Hamada Hidenori
Sagawa Yasutaka
Yamamoto Daisuke
spellingShingle Dasar Amry
Irmawaty Rita
Hamada Hidenori
Sagawa Yasutaka
Yamamoto Daisuke
Prestress Loss and Bending Capacity of Pre-cracked 40 Year-Old PC Beams Exposed to Marine Environment
MATEC Web of Conferences
author_facet Dasar Amry
Irmawaty Rita
Hamada Hidenori
Sagawa Yasutaka
Yamamoto Daisuke
author_sort Dasar Amry
title Prestress Loss and Bending Capacity of Pre-cracked 40 Year-Old PC Beams Exposed to Marine Environment
title_short Prestress Loss and Bending Capacity of Pre-cracked 40 Year-Old PC Beams Exposed to Marine Environment
title_full Prestress Loss and Bending Capacity of Pre-cracked 40 Year-Old PC Beams Exposed to Marine Environment
title_fullStr Prestress Loss and Bending Capacity of Pre-cracked 40 Year-Old PC Beams Exposed to Marine Environment
title_full_unstemmed Prestress Loss and Bending Capacity of Pre-cracked 40 Year-Old PC Beams Exposed to Marine Environment
title_sort prestress loss and bending capacity of pre-cracked 40 year-old pc beams exposed to marine environment
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2016-01-01
description Six prestressed concrete beams (PC beam) were used for evaluation, consist of four post-tension beams (PC-O) and two pre-tension beams (PC-R). In order to investigate the effect of crack on prestress loss and bending capacity after long-term exposed, prestressed concrete beams were pre-crack and then exposed to marine environment. Experimental work was carried out to evaluate PC beams performance after long-term exposed. In addition, visual observations and load bearing capacity test was carried out. Furthermore, evaluation of prestress loss conducted using three-point loading bending test and the remaining tendon forces in the beam were determined using Crack Re-opening Method. The experimental results revealed that prestress loss was increased due to corrosion of strand/wire which affected by the pre-crack on the prestressed beams. Approximately a prestress loss around 26% and 30% was recorded for post-tension and pre-tension beams respectively.
url http://dx.doi.org/10.1051/matecconf/20164702008
work_keys_str_mv AT dasaramry prestresslossandbendingcapacityofprecracked40yearoldpcbeamsexposedtomarineenvironment
AT irmawatyrita prestresslossandbendingcapacityofprecracked40yearoldpcbeamsexposedtomarineenvironment
AT hamadahidenori prestresslossandbendingcapacityofprecracked40yearoldpcbeamsexposedtomarineenvironment
AT sagawayasutaka prestresslossandbendingcapacityofprecracked40yearoldpcbeamsexposedtomarineenvironment
AT yamamotodaisuke prestresslossandbendingcapacityofprecracked40yearoldpcbeamsexposedtomarineenvironment
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