OMITTING THE STATIC COMPONENT FROM DESIGN DYNAMIC MODELS OF PEDESTRIAN LOAD

Štimac Grandić, Ivana

doi:10.13167/2014.9.2

Electronic Journal of the Faculty of Civil Engineering Osijek-e-GFOS, Vol. 5 No. 9, 2014.

Review article

https://doi.org/10.13167/2014.9.2

OMITTING THE STATIC COMPONENT FROM DESIGN DYNAMIC MODELS OF PEDESTRIAN LOAD

Ivana Štimac Grandić orcid.org/0000-0003-3643-7848 ; University of Rijeka, Faculty of Civil Engineering, Rijeka, Croatia

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APA 6th Edition

Štimac Grandić, I. (2014). OMITTING THE STATIC COMPONENT FROM DESIGN DYNAMIC MODELS OF PEDESTRIAN LOAD. Electronic Journal of the Faculty of Civil Engineering Osijek-e-GFOS, 5 (9), 11-21. https://doi.org/10.13167/2014.9.2

MLA 8th Edition

Štimac Grandić, Ivana. "OMITTING THE STATIC COMPONENT FROM DESIGN DYNAMIC MODELS OF PEDESTRIAN LOAD." Electronic Journal of the Faculty of Civil Engineering Osijek-e-GFOS, vol. 5, no. 9, 2014, pp. 11-21. https://doi.org/10.13167/2014.9.2. Accessed 11 May 2024.

Chicago 17th Edition

Štimac Grandić, Ivana. "OMITTING THE STATIC COMPONENT FROM DESIGN DYNAMIC MODELS OF PEDESTRIAN LOAD." Electronic Journal of the Faculty of Civil Engineering Osijek-e-GFOS 5, no. 9 (2014): 11-21. https://doi.org/10.13167/2014.9.2

Harvard

Štimac Grandić, I. (2014). 'OMITTING THE STATIC COMPONENT FROM DESIGN DYNAMIC MODELS OF PEDESTRIAN LOAD', Electronic Journal of the Faculty of Civil Engineering Osijek-e-GFOS, 5(9), pp. 11-21. https://doi.org/10.13167/2014.9.2

Vancouver

Štimac Grandić I. OMITTING THE STATIC COMPONENT FROM DESIGN DYNAMIC MODELS OF PEDESTRIAN LOAD. Electronic Journal of the Faculty of Civil Engineering Osijek-e-GFOS [Internet]. 2014 [cited 2024 May 11];5(9):11-21. https://doi.org/10.13167/2014.9.2

IEEE

I. Štimac Grandić, "OMITTING THE STATIC COMPONENT FROM DESIGN DYNAMIC MODELS OF PEDESTRIAN LOAD", Electronic Journal of the Faculty of Civil Engineering Osijek-e-GFOS, vol.5, no. 9, pp. 11-21, 2014. [Online]. https://doi.org/10.13167/2014.9.2

Abstract

In current codes and guidelines for pedestrian bridge design, the vibration serviceability requirement is determined as a pedestrian comfort criteria, by assessing the maximum acceptable acceleration of any part of the bridge deck, but these criteria can also be defined as the maximum acceptable deflection or velocity at the most unfavorable part of the bridge deck. The design models of dynamic pedestrian load for serviceability limit state (SLS) verification are based on experimental models of dynamic pedestrian load; however, design models of vertical pedestrian load omit the static component of pedestrian weight. In this study, we compare the dynamic responses of different single-span bridge decks, each with a resonance frequency of 2 Hz. We show that omitting the static component is appropriate when defining the comfort criteria by using the maximum acceptable bridge deck velocity or acceleration.

Keywords

dynamic pedestrian load model; pedestrian bridges; SLS

Hrčak ID:

131370

URI

https://hrcak.srce.hr/131370

Publication date:

23.12.2014.

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Electronic Journal of the Faculty of Civil Engineering Osijek-e-GFOS, Vol. 5 No. 9, 2014.

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