Random Vibrational Analysis of FOB for Different Deck Material
Autor: | J. P. Pawar, R. S. Patil, G. R. Gandhe |
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Jazyk: | angličtina |
Rok vydání: | 2021 |
Předmět: | |
ISSN: | 2347-2359 |
DOI: | 10.5281/zenodo.4588471 |
Popis: | Damping performs essential function in format of vibrational resistant structures, which lower the change of the shape when they are subjected to lateral loads or vibrational load. In the existing study the deck of bridge is check for various materials like MS steel plate, RCC slab, and aluminum and MS plate composite deck. The important challenge of a structure is to endure the vibrational loads on deck slab. In order to reduce structural vibration has been used. The bridge is modeled in ANSYS 2019 and modeled with different material of deck. After the study results show foot over bridge having 100 mm thick slab shows better result than having composite sheet or having MS sheet as deck slab. {"references":["Wardhana, K., & Hadipriono, F. C. (2003). Analysis of recent bridge failures in the United States. Journal of performance of constructed facilities, 17(3), 144-150.","Catbas, F. N., Susoy, M., & Frangopol, D. M. (2008). Structural health monitoring and reliability estimation: Long span truss bridge application with environmental monitoring data. Engineering Structures, 30(9), 2347-2359.","Cai, S., Chen, W., Kashani, M. M., Vardanega, P. J., & Taylor, C. A. (2017). Fatigue life assessment of large scale T-jointed steel truss bridge components. Journal of Constructional Steel Research, 133, 499-509.","Kala, J., Salajka, V., & Hradil, P. (2009). Footbridge response on single pedestrian induced vibration analysis. World Academy of Science, Engineering and Technology, 3(2), 548-559.","IemkeRoos et al .Human Induced Vibrations on Footbridges.Application & comparison of pedestrian load models, Delft University of Technology, Netherlands 2009","Zivanovic, S. (2006). Probability-based estimation of vibration for pedestrian structures due to walking (Doctoral dissertation, University of Sheffield).","KuldeepPathaket al\"A Review Study Of Pedestrian Bridge Truss Structure For Low Traffic Volume 2010","Reis, A., & Oliveira Pedro, J. J. (2011). Composite truss bridges: new trends, design and research. Steel Construction, 4(3), 176-182.","He, Z. S., & Liu, J. (2011). Crack Research for Welded Joint of Steel Truss Bridge. In Advanced Materials Research (Vol. 194, pp. 104-108). Trans Tech Publications Ltd.","Machacek, J., & Cudejko, M. (2011). Composite steel and concrete bridge trusses. Engineering Structures, 33(12), 3136-3142."]} |
Databáze: | OpenAIRE |
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