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Continuous assessment of longitudinal temperature force on ballasted track using rail vibration frequency

Continuous assessment of longitudinal temperature force on ballasted track using rail vibration frequency
Continuous assessment of longitudinal temperature force on ballasted track using rail vibration frequency
In this study, the possibility of using the rail vibration frequency to assess the longitudinal temperature force on the rail of ballasted track was investigated experimentally. An empirical formula was subsequently derived to link the frequency index to multiple factors, including the longitudinal temperature force, under-rail stiffness, and fastener spacing. Further tests were conducted to analyse the applicability and accuracy of the frequency index in continuous longitudinal force measurements under different line conditions (i.e. in the non-expansion zone and expansion zone). A technique for using the frequency index to assess the longitudinal temperature force was finally developed. The main results are as follows. (1) The first-order pinned–pinned modal frequency and peak frequency of the mid-span response are very close, and they both change linearly with the longitudinal temperature force on the rail. The rate of change in the vertical direction is larger than that in the horizontal direction. (2) Even if influenced by multiple factors, the peak frequency of the rail mid-span response is suitable for continuous longitudinal temperature force assessment under appropriate measures, and longitudinal temperature force detection could be realized with proper preparation. (3) Using the mid-span response frequency to detect the temperature force of rail located in the expansion zone causes deviation of the results, and under-rail materials whose stiffnesses are insensitive to temperature help reduce this deviation.
Continuous welded rail, Longitudinal temperature force continuous assessment, Modal frequency, Rail mid-span response frequency, Field test
0954-4097
212– 219
Feng, Qingsong
47394d62-3b3e-44d3-aa45-9248328d0fd1
Liu, Zhiye
36d67a51-ea78-40d9-a376-e1053ea984b4
Jiang, Jian
b034e623-ea89-4b17-88e3-4276c260db99
Lei, Xiaoyan
07e75a0d-43cc-4942-921b-d99de94127e4
Wei, Xiankui
1c0f03f6-ae91-4f7d-8632-bf14022f23af
Feng, Qingsong
47394d62-3b3e-44d3-aa45-9248328d0fd1
Liu, Zhiye
36d67a51-ea78-40d9-a376-e1053ea984b4
Jiang, Jian
b034e623-ea89-4b17-88e3-4276c260db99
Lei, Xiaoyan
07e75a0d-43cc-4942-921b-d99de94127e4
Wei, Xiankui
1c0f03f6-ae91-4f7d-8632-bf14022f23af

Feng, Qingsong, Liu, Zhiye, Jiang, Jian, Lei, Xiaoyan and Wei, Xiankui (2021) Continuous assessment of longitudinal temperature force on ballasted track using rail vibration frequency. Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit, 236 (3), 212– 219. (doi:10.1177/09544097211008296).

Record type: Article

Abstract

In this study, the possibility of using the rail vibration frequency to assess the longitudinal temperature force on the rail of ballasted track was investigated experimentally. An empirical formula was subsequently derived to link the frequency index to multiple factors, including the longitudinal temperature force, under-rail stiffness, and fastener spacing. Further tests were conducted to analyse the applicability and accuracy of the frequency index in continuous longitudinal force measurements under different line conditions (i.e. in the non-expansion zone and expansion zone). A technique for using the frequency index to assess the longitudinal temperature force was finally developed. The main results are as follows. (1) The first-order pinned–pinned modal frequency and peak frequency of the mid-span response are very close, and they both change linearly with the longitudinal temperature force on the rail. The rate of change in the vertical direction is larger than that in the horizontal direction. (2) Even if influenced by multiple factors, the peak frequency of the rail mid-span response is suitable for continuous longitudinal temperature force assessment under appropriate measures, and longitudinal temperature force detection could be realized with proper preparation. (3) Using the mid-span response frequency to detect the temperature force of rail located in the expansion zone causes deviation of the results, and under-rail materials whose stiffnesses are insensitive to temperature help reduce this deviation.

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More information

Submitted date: 7 January 2021
Accepted/In Press date: 12 March 2021
e-pub ahead of print date: 4 April 2021
Keywords: Continuous welded rail, Longitudinal temperature force continuous assessment, Modal frequency, Rail mid-span response frequency, Field test

Identifiers

Local EPrints ID: 469526
URI: http://eprints.soton.ac.uk/id/eprint/469526
ISSN: 0954-4097
PURE UUID: 5bf770c7-9bbb-41f0-b802-d8e871fa4dfb

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Date deposited: 16 Sep 2022 16:48
Last modified: 16 Mar 2024 21:47

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Contributors

Author: Qingsong Feng
Author: Zhiye Liu
Author: Jian Jiang
Author: Xiaoyan Lei
Author: Xiankui Wei

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