Comparison of Continuous and Pulsing Water Jets for Repair Actions on Road and Bridge Concrete

Comparison of Continuous and Pulsing Water Jets for Repair Actions on Road and Bridge Concrete

The concrete samples with various erosion states simulating road or bridge damage were disintegrated by pure continuous water jets generated from pressure 380 MPa and by pulsing water jets generated from low pressure 30 MPa. The erosion states of samples were prepared applying several laboratory tec...

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Bibliographic Details
Main Authors: Libor M. Hlaváč, Lenka Bodnárová, Eva Janurová, Libor Sitek
Format: Article
Language:English
Published: RTU Press 2012-03-01
Series:The Baltic Journal of Road and Bridge Engineering
Subjects:
water jet
depth of penetration
removed volume
concrete erosion
concrete repair
reinforcement purging
Online Access:https://bjrbe-journals.rtu.lv/article/view/3597
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spelling doaj-f6930b1b99954200a71b1ec0d0e2b9412020-11-25T03:44:36ZengRTU PressThe Baltic Journal of Road and Bridge Engineering1822-427X1822-42882012-03-0171535910.3846/bjrbe.2012.082006Comparison of Continuous and Pulsing Water Jets for Repair Actions on Road and Bridge ConcreteLibor M. Hlaváč0Lenka Bodnárová1Eva Janurová2Libor Sitek3VŠB‒Technical University of Ostrava, 17. listopadu 15/2172, 70833 Ostrava, Czech RepublicTechnical University of Brno, Veveří 95, 662 37 Brno, Czech RepublicVŠB‒Technical University of Ostrava, 17. listopadu 15/2172, 70833 Ostrava, Czech RepublicInstitute of Geonics CAS, v.v.i., Studentská 1768, 70800 Ostrava, Czech RepublicThe concrete samples with various erosion states simulating road or bridge damage were disintegrated by pure continuous water jets generated from pressure 380 MPa and by pulsing water jets generated from low pressure 30 MPa. The erosion states of samples were prepared applying several laboratory techniques simulating the concrete aging under the conditions corresponding to the use in practice. The influence of the erosion state on the disintegration rate was tested because water jet techniques are very effective in selective disintegration of damaged concrete without significant erosion of the unbroken concrete unlike pneumatic drills or other impacting machines usually used for such a work. The comparison of both the depth of penetration and the ratio of volume disintegration regarding the input power is performed. All results are discussed regarding their application in practice and further development of special routings.https://bjrbe-journals.rtu.lv/article/view/3597water jetdepth of penetrationremoved volumeconcrete erosionconcrete repairreinforcement purging
collection DOAJ
language English
format Article
sources DOAJ
author Libor M. Hlaváč
Lenka Bodnárová
Eva Janurová
Libor Sitek
spellingShingle Libor M. Hlaváč
Lenka Bodnárová
Eva Janurová
Libor Sitek
Comparison of Continuous and Pulsing Water Jets for Repair Actions on Road and Bridge Concrete
The Baltic Journal of Road and Bridge Engineering
water jet
depth of penetration
removed volume
concrete erosion
concrete repair
reinforcement purging
author_facet Libor M. Hlaváč
Lenka Bodnárová
Eva Janurová
Libor Sitek
author_sort Libor M. Hlaváč
title Comparison of Continuous and Pulsing Water Jets for Repair Actions on Road and Bridge Concrete
title_short Comparison of Continuous and Pulsing Water Jets for Repair Actions on Road and Bridge Concrete
title_full Comparison of Continuous and Pulsing Water Jets for Repair Actions on Road and Bridge Concrete
title_fullStr Comparison of Continuous and Pulsing Water Jets for Repair Actions on Road and Bridge Concrete
title_full_unstemmed Comparison of Continuous and Pulsing Water Jets for Repair Actions on Road and Bridge Concrete
title_sort comparison of continuous and pulsing water jets for repair actions on road and bridge concrete
publisher RTU Press
series The Baltic Journal of Road and Bridge Engineering
issn 1822-427X
1822-4288
publishDate 2012-03-01
description The concrete samples with various erosion states simulating road or bridge damage were disintegrated by pure continuous water jets generated from pressure 380 MPa and by pulsing water jets generated from low pressure 30 MPa. The erosion states of samples were prepared applying several laboratory techniques simulating the concrete aging under the conditions corresponding to the use in practice. The influence of the erosion state on the disintegration rate was tested because water jet techniques are very effective in selective disintegration of damaged concrete without significant erosion of the unbroken concrete unlike pneumatic drills or other impacting machines usually used for such a work. The comparison of both the depth of penetration and the ratio of volume disintegration regarding the input power is performed. All results are discussed regarding their application in practice and further development of special routings.
topic water jet
depth of penetration
removed volume
concrete erosion
concrete repair
reinforcement purging
url https://bjrbe-journals.rtu.lv/article/view/3597
work_keys_str_mv AT libormhlavac comparisonofcontinuousandpulsingwaterjetsforrepairactionsonroadandbridgeconcrete
AT lenkabodnarova comparisonofcontinuousandpulsingwaterjetsforrepairactionsonroadandbridgeconcrete
AT evajanurova comparisonofcontinuousandpulsingwaterjetsforrepairactionsonroadandbridgeconcrete
AT liborsitek comparisonofcontinuousandpulsingwaterjetsforrepairactionsonroadandbridgeconcrete
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