2013
DOI: 10.3397/1/3761037
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Train-induced vibration and noise radiation of a prestressed concrete box-girder

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Cited by 22 publications
(18 citation statements)
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“…Walker et al 14 , and Crockett and Pyke 15 used the FE method to calculate the vibration of bridges, but they just made a simple estimate of structure-borne noise based on the derived vibration of each bridge component. The direct use of the FE and BE methods in noise predictions was adopted by Zhang et al 16 and Wu and Liu 17 . Li et al 18 utilized the mode superposition method in a three-dimensional (3D) FE analysis to calculate the dynamic responses of the train-trackbridge system and used the modal acoustic vector in a 3D BE analysis for the prediction of low frequency bridge noise.…”
Section: Remington and Wittig 3 mentioning
confidence: 99%
See 1 more Smart Citation
“…Walker et al 14 , and Crockett and Pyke 15 used the FE method to calculate the vibration of bridges, but they just made a simple estimate of structure-borne noise based on the derived vibration of each bridge component. The direct use of the FE and BE methods in noise predictions was adopted by Zhang et al 16 and Wu and Liu 17 . Li et al 18 utilized the mode superposition method in a three-dimensional (3D) FE analysis to calculate the dynamic responses of the train-trackbridge system and used the modal acoustic vector in a 3D BE analysis for the prediction of low frequency bridge noise.…”
Section: Remington and Wittig 3 mentioning
confidence: 99%
“…Janssens and Thompson 6 applied a model of two infinite Euler-Bernoulli beams connected by a single resilient layer, developed by Pinnington 25 , to calculate the power transmitted to the bridge from the rail excited by a point force. For the prediction of low frequency noise from the bridge, Li et al 18,19 , Zhang et al 13,16 and Song et al 20 utilized a discrete spring model for the direct fastening system between the rail and bridge to obtain the vibration of bridge induced by the moving trains. The stiffness of the fastening system was assumed to be constant for frequencies below 250 Hz.…”
Section: Remington and Wittig 3 mentioning
confidence: 99%
“…The adoption of new thin-walled U-shaped concrete girders in urban rail transit systems in Shanghai led to more noise complaints than the traditional box girders, prompting Wu and Liu [7] and the authors [8,9] to investigate this problem. Low-frequency noise from concrete bridges has been recently investigated by Li et al [8], Kozuma and Nagakura [10], and Zhang et al [11,12], who applied a three-dimensional (3D) boundary element method (BEM), and by Li et al [9], who used a two-and-a-half dimensional (2.5D) BEM-based procedure. To tackle vibro-acoustical problems in the mid-frequency range for general systems, hybrid methods using the finite element method (FEM) and SEA were proposed by Cotoni et al [13] and Maksimov and Tanner [14].…”
Section: Introductionmentioning
confidence: 98%
“…Zhang et al [39,40] proposed the hybrid FEM-BEM method for calculation of box girder noise. A bridge's dynamic response in the time domain can be obtained through solution of the FEM for train-track-bridge coupled vibration; it could then be transferred into the frequency domain via fast Fourier transform.…”
Section: Boundary Element Methodsmentioning
confidence: 99%