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In this paper, a global monitoring system based on the measurement of acoustic emission (AE) due to active deterioration processes within steel structures is presented. This Allowi one to locate and identify deterioration processes (initiation and development of cracks) under cyclic load for large size structures as bridges, gantries, etc. The resulting data can be used to locate damage zones that are dangerous for construction, to assess the general condition of the structure and to serve for structural health monitoring.
Słowa kluczowe
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Tom
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289--299
Opis fizyczny
Bibliogr. 17 poz., rys.
Twórcy
autor
- Kielce University of Technology, Kielce, Poland
autor
- Kielce University of Technology, Kielce, Poland
autor
- Kielce University of Technology, Kielce, Poland
Bibliografia
- 1. Aggelis D.G., Kordatos E.Z., Matikas T.E., 2011, Acoustic emission for fatigue damage characterization in metal plates, Mechanics Research Communication, 38, 2, 106-110
- 2. Gołaski L., Goszczyńska B., Świt G., Trąmpczyński W., 2012, System for the global monitoring and evaluation of damage processes developing within concrete structures under service loads, The Baltic Journal of Road and Bridge Engineering, 7, 4, 237-245
- 3. Gołaski L., Goszczyńska B., Świt G., Trąmpczyński W., 2011, Application of AE for monitoring the damage processes within steel structures, Proceedings 57-th Annual Scientific Conference “Scientific Problems of Engineering Rzeszow-Krynica 2011”, 119-126
- 4. Goszczyńska B., 2014, Analysis of the process of crack initiation and evolution in concrete with acoustic emission testing, Archives of Civil and Mechanical Engineering, 14, 2, 134-143
- 5. Goszczyńska B., Świt G., Trąmpczyński W., Krampikowska A., Tworzewska J., Tworzewski P., 2012, Experimental validation of concrete crack identification and location with acoustic emission method, Archives of Civil and Mechanical Engineering, XII, 1, 23-28
- 6. Goszczyńska B., Świt G., Trąmpczyński W., 2013,Monitoring of active destructive processes as a diagnostic tool for the structure technical state evaluation, Bulletin of the Polish Academy of Sciences, Technical Sciences, 61, 1, 97-108
- 7. Hoła J., Schabowicz K., 2010, State-of-the-art non-destructive methods for diagnostics testing of building structures – anticipated development trends, Archives of Civil and Mechanical Engineering, 10, 3, 5-18
- 8. Nair A., Cai C.S., 2010, Acoustic emission monitoring of bridges: Review and case studies, Engineering Structures, 32, 6, 1704-1714
- 9. Neimitz A., Dzioba I., Graba M., Okrajni J., 2008, Assessment of Strength, Service Life and Structural Reliability of Members Containing Defects (in Polish), Wydawnictwo Politechniki Świętokrzyskiej, Kielce, 1-438
- 10. Ono K., 2011, Aplication of acoustic emission for structure diagnostic, Diagnostyka, 2, 58, 3-18
- 11. Palmgren A., 1924, Die Lebensdauer von Kugellagern Verfahrenstechnik, Zeitschrift des Vereins Deutscher Ingenieure, 58, 339-341
- 12. Paris P.C., Erdogan F., 1960, A critical analysis of crack propagation laws, Journal of Basic Engineering. Transaction ASME, 85, 528-534,
- 13. Ranachowski P., Rejmund F., Jaroszewski M., Wieczorek K., 2009, Study of structural degradation of ceramic material of insulators in long term operations, Archives of Metallurgy and Materials, 54, 1, 205-216
- 14. Świt G., 2011, Analysis of the Destructive Processes in Bridge Structures of Beams Prestressed with the Phenomenon of Acoustic Emission (in Polish),Wydawnictwo Politechniki Świętokrzyskiej, Kielce, M 21, 1-174
- 15. Świt G., Trąmpczyński W., Płonecki L., 2011, Application of acoustic emission for the monitoring of large –size steel elements, Przegląd Mechaniczny, 10/11, 27-32
- 16. Yu J., Ziehl P. , Z´arate B., Caicedo J., 2011, Prediction of fatigue crack growth in steel bridge components using acoustic emission, Journal of Constructional Steel Research, 67, 8, 1254-1260
- 17. Ziehl P.H., 2008, Applications of acoustic emission evaluation for civil infrastructure, Society of Photo-Optical Instrumentation Engineers, Proceedings, 6934, ISSN 0277-786X
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-827b7ab9-ac14-4658-a57a-05422e9126ef