ISSN:2164-6457 (print)
ISSN:2164-6473 (online)
Journal of Applied Nonlinear Dynamics
Miguel A. F. Sanjuan (editor), Albert C.J. Luo (editor)
Miguel A. F. Sanjuan (editor)

Email: miguel.sanjuan@urjc.es

Albert C.J. Luo (editor)

Department of Mechanical and Industrial Engineering, Southern Illinois University Ed-wardsville, IL 62026-1805, USA

Fax: +1 618 650 2555 Email: aluo@siue.edu

Multiple Moving Force Identification Based on Bridge Bending Moment Influence Lines

Journal of Applied Nonlinear Dynamics 4(4) (2015) 371--378 | DOI:10.5890/JAND.2015.11.004

C.Z. Qian$^{1}$,$^{2}$, C.P. Chen$^{1}$,$^{2}$, L.M. Dai$^{1}$,$^{2}$

$^{1}$ Shool of Civil Engineering and Architecture, Xiamen University of Technology Xiamen, Fujian, China

$^{2}$ Sino-Canada Research Center for Noise and Vibration Control, Xiamen University of Technology and University of Regina

Abstract

Identification of the moving forces on a bridge is essential to bridge design and management. A new method for identifying the time varying axle loads is presented in this research using the bending moment influence line. Based on the theorem of modal superposition and taking the damping force into consideration, several modal accelerations can be obtained from measured accelerations of the bridge at several sections. Based on the dâ€™Alembertian theory, the inertia force of the bridge is expressed as a distributed load. Using the bending moment influence lines of the bridge, the moving force contributing to the moment and the inertia force are obtained. The formulation about flexural moment and moving force is obtained correspondingly. An optimization method is used to find the solution of the equations, and then the moving forces can be obtained at any given time. Examples show that the method has a high accuracy in identifying moving forces even though there are more than one time varying forces. By applying the proposed method, information regarding the moving forces can be obtained without solving the dynamic equation, resulting in an efficient model for applications in engineering.

Acknowledgments

This work is supported by the National Science Foundation of China (Grant No: 51108047, 11272270, 11172051), Science and Technology Project in Xiamen(Grant No:3502Z20143028)

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