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Influence of under-chassis-suspended equipment on high-speed EMU trains and the design of suspension parameters

Influence of under-chassis-suspended equipment on high-speed EMU trains and the design of suspension parameters
Influence of under-chassis-suspended equipment on high-speed EMU trains and the design of suspension parameters
A numerical method for the calculation of the frequencies of vibration of a car body on a high-speed electric multiple unit train with under-chassis-suspended equipment is proposed. In addition, the design of the parameters of the suspension system for the equipment is presented; it is based on the principles of mode matching, transmissibility matching, and consideration of the optimal vibration of both car body and equipment. It is shown that by tuning the suspension stiffness, the first vertical bending frequency of the car body displays a frequency-hopping phenomenon. The first vertical bending frequency of the car body can be enhanced by optimizing the suspension parameters, so as to suppress the vibrations of both the car body and the suspended equipment.
0954-4097
1790-1802
Gong, Dao
42222582-fc8e-4704-8369-829c6db7e289
Zhou, Jinsong
5302ef52-fd22-4b4d-baa6-3c640dd17f17
Sun, Wenjing
697ae912-77f1-43f4-b7ee-38cf7fb986b2
Gong, Dao
42222582-fc8e-4704-8369-829c6db7e289
Zhou, Jinsong
5302ef52-fd22-4b4d-baa6-3c640dd17f17
Sun, Wenjing
697ae912-77f1-43f4-b7ee-38cf7fb986b2

Gong, Dao, Zhou, Jinsong and Sun, Wenjing (2015) Influence of under-chassis-suspended equipment on high-speed EMU trains and the design of suspension parameters. Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit, 230 (8), 1790-1802. (doi:10.1177/0954409715614601).

Record type: Article

Abstract

A numerical method for the calculation of the frequencies of vibration of a car body on a high-speed electric multiple unit train with under-chassis-suspended equipment is proposed. In addition, the design of the parameters of the suspension system for the equipment is presented; it is based on the principles of mode matching, transmissibility matching, and consideration of the optimal vibration of both car body and equipment. It is shown that by tuning the suspension stiffness, the first vertical bending frequency of the car body displays a frequency-hopping phenomenon. The first vertical bending frequency of the car body can be enhanced by optimizing the suspension parameters, so as to suppress the vibrations of both the car body and the suspended equipment.

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More information

Accepted/In Press date: 7 October 2015
e-pub ahead of print date: 13 November 2015

Identifiers

Local EPrints ID: 492410
URI: http://eprints.soton.ac.uk/id/eprint/492410
DOI: doi:10.1177/0954409715614601
ISSN: 0954-4097
PURE UUID: 95aa9f85-52d5-4a6b-be28-bf79355d1ae6

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Date deposited: 25 Jul 2024 17:24
Last modified: 25 Jul 2024 17:24

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Contributors

Author: Dao Gong
Author: Jinsong Zhou
Author: Wenjing Sun

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