Linear/Nonlinear Dynamic Analysis and Prediction of Failure Mechanism of Irgandi Bridge

Authors

  • Gökhan Barış Sakcalı
    Affiliation
    Department of Civil Engineering, Faculty of Engineering and Natural Sciences, Bursa Technical University, Yıldırım Bayezid Campus, 16330, Bursa, Turkey
  • Alper Gönül
    Affiliation

    Department of Architecture, Faculty of Architecture and Design, Bursa Technical University, Yıldırım Bayezid Campus, 16330, Bursa, Turkey

    Department of Architecture, Faculty of Architecture, Bursa Uludağ University, Görükle Campus, 16285, Bursa, Turkey

  • Muhammed Bilal Bağbancı
    Affiliation

    Department of Architecture, Faculty of Architecture, Bursa Uludağ University, Görükle Campus, 16285, Bursa, Turkey

  • İsa Yüksel
    Affiliation
    Department of Civil Engineering, Faculty of Engineering and Natural Sciences, Bursa Technical University, Yıldırım Bayezid Campus, 16330, Bursa, Turkey
https://doi.org/10.3311/PPci.20355

Abstract

The goal of this study is to investigate the behavior and failure mechanism of historical Irgandi Bridge located in Bursa City under earthquake loads by using linear and nonlinear dynamic analysis. Dynamic characteristics of the bridge is investigated by using in-situ Operational Modal Analysis (OMA) tests. The finite element model is updated according to the OMA tests. Three different artificial earthquake records from weak to very strong are applied to the model for understanding the damage zones and the failure mechanism of the historical bridge. The results show that the bridge does not reach the failure mechanism under weak earthquakes for nonlinear dynamic analysis. However, under strong earthquake even if damage zones are occurred and the stiffness of the bridge is decreased, there is no failure mechanism observed according to the nonlinear dynamic analyses. Under very strong earthquake loads the bridge reaches the failure mechanism according to the nonlinear dynamic analysis. As the earthquake level increases, the difference between linear and nonlinear dynamic analysis results increases due to structural damages. In addition, considering the soil-structure interactions, it is concluded that the dynamic characteristics could be reflected more accurately.

Keywords:

finite element method, historic masonry bridges, linear dynamic analysis, nonlinear dynamic analysis, operational modal analysis

Citation data from Crossref and Scopus

Published Online

2022-09-28

How to Cite

Sakcalı, G. B., Gönül, A., Bağbancı, M. B., Yüksel, İsa “Linear/Nonlinear Dynamic Analysis and Prediction of Failure Mechanism of Irgandi Bridge”, Periodica Polytechnica Civil Engineering, 66(4), pp. 1248–1261, 2022. https://doi.org/10.3311/PPci.20355

Issue

Section

Research Article