Simulation and analysis about the loads of random pedestrians on footbridge

Shao Hua Niu; Hua Min Wang; Shi Qiao Gao

Simulation and analysis about the loads of random pedestrians on footbridge

Shao Hua Niu, Hua Min Wang, Shi Qiao Gao

School of Mechatronical Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

The finite element model of footbridge is established by ANSYS software. In the model, the Shell181 element is used in the cabinet body of the footbridge, and the SOLID 65 element is employed in the concrete structure. The MPC (multipoint constraint) technology is employed in cabinet and concrete joint, ensuring the contacting parts of different cell types with the same degree of freedom. On the foundation of rand and gdis databases, APDL language is applied so that the model can be parameterized to achieve the stride frequency obeying the randoms of normal distribution, pace, start position, phase angle, walking direction and weight. The simulation process is quite agreed with the actual random walks of pedestrians on the bridge deck. The proposed random model for the stream of people is loaded on the bridge deck, and then the FULL method is transiently analyzed by ANSYS. The simulation results can be used to verify the applicability and safety of the footbridge.

Original language	English
Pages (from-to)	385-390
Number of pages	6
Journal	Binggong Xuebao/Acta Armamentarii
Volume	36
Publication status	Published - 1 Jun 2015

Keywords

Civil engineering structure
Finite element
MPC
Stream random model
Transient analysis

Cite this

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abstract = "The finite element model of footbridge is established by ANSYS software. In the model, the Shell181 element is used in the cabinet body of the footbridge, and the SOLID 65 element is employed in the concrete structure. The MPC (multipoint constraint) technology is employed in cabinet and concrete joint, ensuring the contacting parts of different cell types with the same degree of freedom. On the foundation of rand and gdis databases, APDL language is applied so that the model can be parameterized to achieve the stride frequency obeying the randoms of normal distribution, pace, start position, phase angle, walking direction and weight. The simulation process is quite agreed with the actual random walks of pedestrians on the bridge deck. The proposed random model for the stream of people is loaded on the bridge deck, and then the FULL method is transiently analyzed by ANSYS. The simulation results can be used to verify the applicability and safety of the footbridge.",

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AU - Niu, Shao Hua

AU - Wang, Hua Min

AU - Gao, Shi Qiao

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N2 - The finite element model of footbridge is established by ANSYS software. In the model, the Shell181 element is used in the cabinet body of the footbridge, and the SOLID 65 element is employed in the concrete structure. The MPC (multipoint constraint) technology is employed in cabinet and concrete joint, ensuring the contacting parts of different cell types with the same degree of freedom. On the foundation of rand and gdis databases, APDL language is applied so that the model can be parameterized to achieve the stride frequency obeying the randoms of normal distribution, pace, start position, phase angle, walking direction and weight. The simulation process is quite agreed with the actual random walks of pedestrians on the bridge deck. The proposed random model for the stream of people is loaded on the bridge deck, and then the FULL method is transiently analyzed by ANSYS. The simulation results can be used to verify the applicability and safety of the footbridge.

AB - The finite element model of footbridge is established by ANSYS software. In the model, the Shell181 element is used in the cabinet body of the footbridge, and the SOLID 65 element is employed in the concrete structure. The MPC (multipoint constraint) technology is employed in cabinet and concrete joint, ensuring the contacting parts of different cell types with the same degree of freedom. On the foundation of rand and gdis databases, APDL language is applied so that the model can be parameterized to achieve the stride frequency obeying the randoms of normal distribution, pace, start position, phase angle, walking direction and weight. The simulation process is quite agreed with the actual random walks of pedestrians on the bridge deck. The proposed random model for the stream of people is loaded on the bridge deck, and then the FULL method is transiently analyzed by ANSYS. The simulation results can be used to verify the applicability and safety of the footbridge.

KW - Civil engineering structure

KW - Finite element

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KW - Stream random model

KW - Transient analysis

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Simulation and analysis about the loads of random pedestrians on footbridge

Abstract

Keywords

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