Your search keyword '"ROLLING contact"' showing total 2 results

1. Mechanism of rail corrugation combined with friction self-excited vibration and wheel-track resonance.

Author

Wang, Yang, Xiao, Hong, Nadakatti, Mahantesh M., Wang, Xiaoyu, and Fang, Shuwei

Subjects

*SELF-induced vibration, *RESONANCE, *FRICTION, *ROLLING contact, *FIELD research, *CONSTRUCTION slabs

Abstract

• Mechanism of rail corrugation generation on steel-spring floating slab track. • Analysis model of rail corrugation considering friction self-excited vibration and wheel-track resonance. • Measures for mitigating rail corrugation on steel-spring floating slab track. In the present study on rail corrugation, a field investigation is carried out on a typical section of a Steel-spring Floating Slab Track (SFST) in the Beijing subway for studying the two distinct types of corrugations generated by the left and right rails in the curved sections of the metro line. Further, study is also done on the vibration response of track components when trains pass over the rail corrugations at a typical SFST curve having small radius of curvature (R = 300 m). The study establishes an SFST rail corrugation analysis model by effectively combining SIMPACK and ABAQUS. The proposed model considers the effects of both, friction self-excited vibration and resonance of the wheel-track system, for analyzing the reasons leading to inconsistent corrugation generated by the left and right rails in the small radius curve section of SFST. The results show that when the train load acts on the middle position of the adjacent steel-spring, it causes the rail to produce vertical bending resonance with the floating slab relative to the baseplate. This, in turn will result in increased corrugation which could reach 200 mm wavelength. At similar frequency, the anti-phase resonance of the unsprung mass and the track vibration mass, directly results in the formation of 200 mm corrugation. The wheelset-SFST system occurs near 68.4 Hz due to vertical torsional resonance of the floating slab. This leads to the rapid development of 200 mm corrugation in the curve's inner rail. When the train passes through the small radius curve section of SFST, the creep force between the guiding wheelset's outer wheel and the outer rail of the curve tends to saturate. This results in generation of 31.5 mm corrugation by the outer rail due to friction self-excited vibration. It is recommended to maintain the vertical stiffness of the fastener system above 50 MN/m to either stop or reduce the generation and development of corrugation at 200 mm and 31.5 mm wavelengths. [ABSTRACT FROM AUTHOR]

Published

2023

2. Identification of vertical wheel-rail contact force based on an analytical model and measurement and its application in predicting ground-borne vibration.

Author

Li, Chunyang, Liu, Weifeng, and Liang, Ruihua

Subjects

*ROLLING contact, *FORECASTING, *MEASUREMENT

Abstract

• A force identification methodology based on measurement is proposed. • Wheel-rail contact force can be identified accurately by this model. • The identified force can be used to predict train-induced ground-borne vibration. Wheel-rail interaction plays an important role in the study of railway engineering. The wheel-rail contact forces (WCFs) are the key factors in the models addressing wheel-rail interaction. However, it is sometimes difficult to be measured, so an indirect identification methodology is proposed in this paper. Based on an analytical model and measurement, the vertical WCF can be determined. Using measured rail accelerations as input data, a calculation program is developed. The vertical WCF and the excitation forces transmitted from the vehicle-rail system to the roadbed can be obtained. The latter forces are used to predict the train-induced ground-borne vibrations. A case study of predicting ground-borne vibration in Beijing Metro is presented to verify the effectiveness of this method. The results show that the vertical WCF can be obtained efficiently and accurately, and the predicted ground-borne vibrations have good agreement with the measured ones. [ABSTRACT FROM AUTHOR]

Published

2021