Yuntai Zhang scite author profile

The dynamic response of a simply supported double-beam system under moving loads was studied. First, in order to reduce the difficulty of solving the equation, a finite sin-Fourier transform was used to transform the infinite-degree-of-freedom double-beam system into a superimposed two-degrees-of-freedom system. Second, Duhamel’s integral was used to obtain the analytical expression of Fourier amplitude spectrum function considering the initial conditions. Finally, based on finite sin-Fourier inverse transform, the analytical expression of dynamic response of a simply supported double-beam system under moving loads was deduced. The dynamic response under successive moving loads was calculated by the analytical method and the general FEM software ANSYS. The analysis results show that the analytical method calculation results are consistent with ANSYS’ calculation, thus validating the analytical calculation method. The simply supported double-beam system had multiple critical speeds, and the flexural rigidity significantly affected both peak vertical displacement and critical speed.

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Study of bridge-subgrade longitudinal constraint range for high-speed railway simply-supported beam bridge with CRTSII ballastless track under earthquake excitation

Zhang

Jiang

Zhou

et al. 2020

Construction and Building Materials

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Earthquake Influence on the Rail Irregularity on High-Speed Railway Bridge

Lai

Kang

Jiang

et al. 2020

Shock and Vibration

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Rail irregularity is the leading cause of enhancing train-track coupling vibration and, therefore, should be studied in detail for safety requirements. In this study, the differences between existing rail irregularities without being subjected to an earthquake between different countries were first studied. Results show that existing power spectrum density and time-domain displacement samples of rail irregularities in the American code are the largest, while the irregularities of the Germany railway are higher than those of China in a specific range of rail wavelengths. Afterward, the effects of earthquake intensity, soil site, and duration on the rail irregularity of a Chinese typical high-speed railway bridge were investigated. For this purpose, a finite element model was established and validated by the shaking table test of a 1/12-scaled high-speed railway bridge experimental specimen. The calculation results indicated that the influences of earthquakes on the rail alignment irregularity were evident.

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Running test on high-speed railway track-simply supported girder bridge systems under seismic action

Jiang

Zhou

et al. 2021

Bull Earthquake Eng

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Simplified calculation modeling method of multi-span bridges on high-speed railways under earthquake condition

Jiang

Zhang

Feng

et al. 2020

Bull Earthquake Eng

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Yuntai Zhang

Dynamic Response Analysis of a Simply Supported Double-Beam System under Successive Moving Loads

Study of bridge-subgrade longitudinal constraint range for high-speed railway simply-supported beam bridge with CRTSII ballastless track under earthquake excitation

Earthquake Influence on the Rail Irregularity on High-Speed Railway Bridge

Running test on high-speed railway track-simply supported girder bridge systems under seismic action

Simplified calculation modeling method of multi-span bridges on high-speed railways under earthquake condition

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