Experimental verification of the numerical model of a reinforced concrete arch

Experimental verification of the numerical model of a reinforced concrete arch

The paper presents numerical and experimental dynamic analysis of the reinforced concrete arch. The measurement of the accelerations at various points of the structure as a response to the force (single input-multiple output approach) was made. Dynamic response of the concrete arch has been measured...

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Main Authors: Markiewicz Barbara, Piątkowski Grzegorz, Szyszka Łukasz, Ziaja Dominika
Format: Article
Language:English
Published: EDP Sciences 2019-01-01
Series:MATEC Web of Conferences
Online Access:https://www.matec-conferences.org/articles/matecconf/pdf/2019/34/matecconf_dynkon18_00010.pdf
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spelling doaj-a7ce9c5ac6394edab35c561a8a965da12021-02-02T02:23:11ZengEDP SciencesMATEC Web of Conferences2261-236X2019-01-012850001010.1051/matecconf/201928500010matecconf_dynkon18_00010Experimental verification of the numerical model of a reinforced concrete archMarkiewicz Barbara0Piątkowski Grzegorz1Szyszka Łukasz2Ziaja Dominika3Rzeszow University of Technology, The Faculty of Civil and Environmental Engineering and ArchitectureRzeszow University of Technology, The Faculty of Civil and Environmental Engineering and ArchitectureRzeszow University of Technology, The Faculty of Civil and Environmental Engineering and ArchitectureRzeszow University of Technology, The Faculty of Civil and Environmental Engineering and ArchitectureThe paper presents numerical and experimental dynamic analysis of the reinforced concrete arch. The measurement of the accelerations at various points of the structure as a response to the force (single input-multiple output approach) was made. Dynamic response of the concrete arch has been measured by piezoelectric accelerometers and signals have been recorded by multi-channel LMS SCADAS Mobile recorder. As a result of the measurements frequencies and mode shapes have been determined. ADINA program has been used for building of numerical models. The static scheme of the arch (the stiffness of the supports) has been updated using the genetic algorithms (GA) available in MATLAB to obtain the results, which correspond to dynamic testing. Two similarity criteria have been considered: the mean squared error (MSE) between frequencies and the Modal Assurance Criterion (MAC) for forms comparison. In additional example, the Young’s modulus has been also optimized.https://www.matec-conferences.org/articles/matecconf/pdf/2019/34/matecconf_dynkon18_00010.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Markiewicz Barbara
Piątkowski Grzegorz
Szyszka Łukasz
Ziaja Dominika
spellingShingle Markiewicz Barbara
Piątkowski Grzegorz
Szyszka Łukasz
Ziaja Dominika
Experimental verification of the numerical model of a reinforced concrete arch
MATEC Web of Conferences
author_facet Markiewicz Barbara
Piątkowski Grzegorz
Szyszka Łukasz
Ziaja Dominika
author_sort Markiewicz Barbara
title Experimental verification of the numerical model of a reinforced concrete arch
title_short Experimental verification of the numerical model of a reinforced concrete arch
title_full Experimental verification of the numerical model of a reinforced concrete arch
title_fullStr Experimental verification of the numerical model of a reinforced concrete arch
title_full_unstemmed Experimental verification of the numerical model of a reinforced concrete arch
title_sort experimental verification of the numerical model of a reinforced concrete arch
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2019-01-01
description The paper presents numerical and experimental dynamic analysis of the reinforced concrete arch. The measurement of the accelerations at various points of the structure as a response to the force (single input-multiple output approach) was made. Dynamic response of the concrete arch has been measured by piezoelectric accelerometers and signals have been recorded by multi-channel LMS SCADAS Mobile recorder. As a result of the measurements frequencies and mode shapes have been determined. ADINA program has been used for building of numerical models. The static scheme of the arch (the stiffness of the supports) has been updated using the genetic algorithms (GA) available in MATLAB to obtain the results, which correspond to dynamic testing. Two similarity criteria have been considered: the mean squared error (MSE) between frequencies and the Modal Assurance Criterion (MAC) for forms comparison. In additional example, the Young’s modulus has been also optimized.
url https://www.matec-conferences.org/articles/matecconf/pdf/2019/34/matecconf_dynkon18_00010.pdf
work_keys_str_mv AT markiewiczbarbara experimentalverificationofthenumericalmodelofareinforcedconcretearch
AT piatkowskigrzegorz experimentalverificationofthenumericalmodelofareinforcedconcretearch
AT szyszkałukasz experimentalverificationofthenumericalmodelofareinforcedconcretearch
AT ziajadominika experimentalverificationofthenumericalmodelofareinforcedconcretearch
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