Theoretical model for damage and vibration response in concrete bridges
The use of vibration signatures for structural health monitoring (SHM) purposes has been used in various fields, such as mechanical and aerospace engineering for many years. In recent years, its potential for use with civil engineering structures has been investigated and of particular interest in c...
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Faculty of Civil Engineering
2009
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my.utm.97262011-05-19T04:14:25Z http://eprints.utm.my/id/eprint/9726/ Theoretical model for damage and vibration response in concrete bridges Abdul Rahman, Azlan Ahmad, Baderul Hisham Bakri, Ahmadon Yong, Chou Yu TA Engineering (General). Civil engineering (General) The use of vibration signatures for structural health monitoring (SHM) purposes has been used in various fields, such as mechanical and aerospace engineering for many years. In recent years, its potential for use with civil engineering structures has been investigated and of particular interest in civil engineering is its applicability to buildings and bridges. It is recently known that each structure has its typical dynamic behaviour, which may be addressed as vibrational signature. Any changes in a structure, such as all kinds of damages and deteriorations leading to decrease of the load-carrying capacity have an impact on dynamic response, hence suggesting the use of dynamic response characteristics for the evaluation of quality and structural integrity. Monitoring of the dynamic response of structures makes it possible to get very quick knowledge of the actual conditions and helps in planning of rehabilitation budgets. One of the promising developments in structural vibration monitoring is the ambient vibration testing which does not require a controlled excitation of the structure. The structural response to ambient excitation can be recorded in large number of points and from these ambient measurement, the condition of the structure can be derived. A classification of the structures can be developed based on vibration monitoring using the modal parameters natural frequencies, mode shapes, damping values and vibration intensities. The ambient vibration testing represents a real operating condition of the structure. This report presents a theoretical and experimental ambient modal analysis on three existing structures namely a staircase, a timber footbridge and a concrete bridge. The field-testing has provided opportunity to analyse dynamic properties of the three selected structures. The operational modal analysis software, ARTeMIS Extractor is a tool used for analysing the raw data to obtain the dynamic properties of the structures. Finite element modelling and analysis on the structure by using finite element software, ANSYS were developed. The comparison between the mode shapes determined from both analyses showed some similarity. The natural frequencies that were generated had a variance between the two analyses. Thus, the modal updating is essential on the next stage. Improvement in the field-testing is needed in order to obtain more accurate and quality results. Overall, modal analysis is comparable as an alternative to extract dynamic properties of the structures. Faculty of Civil Engineering 2009-01-31 Monograph NonPeerReviewed application/pdf en http://eprints.utm.my/id/eprint/9726/1/78007.pdf Abdul Rahman, Azlan and Ahmad, Baderul Hisham and Bakri, Ahmadon and Yong, Chou Yu (2009) Theoretical model for damage and vibration response in concrete bridges. Project Report. Faculty of Civil Engineering, Skudai, Johor. (Unpublished) |
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TA Engineering (General). Civil engineering (General) Abdul Rahman, Azlan Ahmad, Baderul Hisham Bakri, Ahmadon Yong, Chou Yu Theoretical model for damage and vibration response in concrete bridges |
| description |
The use of vibration signatures for structural health monitoring (SHM) purposes has been used in various fields, such as mechanical and aerospace engineering for many years. In recent years, its potential for use with civil engineering structures has been investigated and of particular interest in civil engineering is its applicability to buildings and bridges. It is recently known that each structure has its typical dynamic behaviour, which may be addressed as vibrational signature. Any changes in a structure, such as all kinds of damages and deteriorations leading to decrease of the load-carrying capacity have an impact on dynamic response, hence suggesting the use of dynamic response characteristics for the evaluation of quality and structural integrity. Monitoring of the dynamic response of structures makes it possible to get very quick knowledge of the actual conditions and helps in planning of rehabilitation budgets. One of the promising developments in structural vibration monitoring is the ambient vibration testing which does not require a controlled excitation of the structure. The structural response to ambient excitation can be recorded in large number of points and from these ambient measurement, the condition of the structure can be derived. A classification of the structures can be developed based on vibration monitoring using the modal parameters natural frequencies, mode shapes, damping values and vibration intensities. The ambient vibration testing represents a real operating condition of the structure. This report presents a theoretical and experimental ambient modal analysis on three existing structures namely a staircase, a timber footbridge and a concrete bridge. The field-testing has provided opportunity to analyse dynamic properties of the three selected structures. The operational modal analysis software, ARTeMIS Extractor is a tool used for analysing the raw data to obtain the dynamic properties of the structures. Finite element modelling and analysis on the structure by using finite element software, ANSYS were developed. The comparison between the mode shapes determined from both analyses showed some similarity. The natural frequencies that were generated had a variance between the two analyses. Thus, the modal updating is essential on the next stage. Improvement in the field-testing is needed in order to obtain more accurate and quality results. Overall, modal analysis is comparable as an alternative to extract dynamic properties of the structures. |
| format |
Monograph |
| author |
Abdul Rahman, Azlan Ahmad, Baderul Hisham Bakri, Ahmadon Yong, Chou Yu |
| author_facet |
Abdul Rahman, Azlan Ahmad, Baderul Hisham Bakri, Ahmadon Yong, Chou Yu |
| author_sort |
Abdul Rahman, Azlan |
| title |
Theoretical model for damage and vibration response in concrete bridges |
| title_short |
Theoretical model for damage and vibration response in concrete bridges |
| title_full |
Theoretical model for damage and vibration response in concrete bridges |
| title_fullStr |
Theoretical model for damage and vibration response in concrete bridges |
| title_full_unstemmed |
Theoretical model for damage and vibration response in concrete bridges |
| title_sort |
theoretical model for damage and vibration response in concrete bridges |
| publisher |
Faculty of Civil Engineering |
| publishDate |
2009 |
| url |
http://eprints.utm.my/id/eprint/9726/1/78007.pdf http://eprints.utm.my/id/eprint/9726/ |
| _version_ |
1643645236650442752 |