Dynamic Responses of Continuous Girder Bridges with Uniform Cross-Section under Moving Vehicular Loads

Qingfei Gao,Chenguang Liu,Jun Li,Junfei Zhong,Zonglin Wang,Binqiang Guo,Hongyu Jia

doi:10.1155/2015/951502

Abstract

To address the drawback of traditional method of investigating dynamic responses of the continuous girder bridge with uniform cross-section under moving vehicular loads, the orthogonal experimental design method is proposed in this paper. Firstly, some empirical formulas of natural frequencies are obtained by theoretical derivation and numerical simulation. The effects of different parameters on dynamic responses of the vehicle-bridge coupled vibration system are discussed using our own program. Finally, the orthogonal experimental design method is proposed for the dynamic responses analysis. The results show that the effects of factors on dynamic responses are dependent on both the selected position and the type of the responses. In addition, the interaction effects between different factors cannot be ignored. To efficiently reduce experimental runs, the conventional orthogonal design is divided into two phases. It has been proved that the proposed method of the orthogonal experimental design greatly reduces calculation cost, and it is efficient and rational enough to study multifactor problems. Furthermore, it provides a good way to obtain more rational empirical formulas of the DLA and other dynamic responses, which may be adopted in the codes of design and evaluation.

Highlights

The dynamic response of bridges due to moving vehicular loads has been a subject of interest to engineers more than 100 years
The results show that the effects of factors on dynamic responses are dependent on both the selected position and the type of the responses
In recognition of the complex behavior associated with the dynamic response from vehicular loading, several authors have observed that the term “impact” is too limited and not descriptive of the actual behavior [2,3,4,5]

Summary

Introduction

The dynamic response of bridges due to moving vehicular loads has been a subject of interest to engineers more than 100 years. Transient, and nonlinear characteristics of the vehicle-bridge coupled vibration system, the phenomenon of dynamic response is one that requires fairly complex mathematical treatment to adequately characterize the motion and forces within the structure For simplicity, it will instead be conceptual treatment using a common format, one that describes dynamic response as a fraction or multiple of the response that would be obtained if the same forces or loads were applied statically. Inbanathan and Wieland performed an analytical investigation of the dynamic response of a supported box girder bridge due to vehicle moving across the span [32]. Paultre et al presented a comprehensive review of analytical and experimental findings on bridge dynamics and the evaluation of the dynamic load allowance [19] All these studies have proved that many of the parameters interact with one another, further complicating the issue, and many research studies have reported seemingly conflicting conclusions. The orthogonal experimental design method is proposed for the dynamic responses analysis, including the case without interaction and the case considering interaction

Natural Frequencies of Multispan Continuous Girder Bridges

Dynamic Responses Analysis by Traditional Method

Numerical Simulations Based on the Orthogonal Experimental Design