曲线段主动转向转向架的车轮降噪性能

IF 1.5 4区 工程技术 Q3 ENGINEERING, MECHANICAL Journal of Mechanical Science and Technology Pub Date : 2024-09-04 DOI:10.1007/s12206-024-0810-9
Hyunmoo Hur, Kyungho Moon, Jungwon Seo, Jonghyun Choi, Junhyuk Lee
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引用次数: 0

摘要

本文对主动转向转向架的降噪性能进行了评估,开发该转向架的目的是解决车轮和钢轨磨损问题,并降低列车在曲线区段运行时的噪音。在试验列车上安装了主动转向转向架的原型,并在半径为 300 米或以下的商业线路曲线区段测量了主动转向控制的降噪性能。试运行结果证实,与未采用主动转向控制的情况相比,采用主动转向控制时车轮和车厢内部的噪音都有所降低。根据降噪效果最好的曲线路段的测试结果,通过主动转向控制,车轮和车身的等效噪声分别降低了 6.6 分贝和 4.7 分贝。此外,对车轮转向控制的频率特性进行分析后证实,在弯道行驶过程中产生的 300 至 2000 Hz 频段的尖叫噪声模式明显降低。因此,测试结果充分验证了为提高弯道转向性能而开发的主动转向转向架的降噪性能。
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Wheel noise reduction performance of active steering bogie in curved section

In this paper, the noise reduction performance of the active steering bogie, developed to address wheel and rail wear and reduce noise during train operation in curved sections, was evaluated. A prototype of the active steering bogie was installed on the test train, and noise reduction performance by active steering control was measured in curved sections of a commercial line with a radius of curve of 300 m or less. The results of the test run confirmed that both the wheel and car interior noise were reduced when active steering control was applied, compared with the case where it was not applied. According to the test results in the curved section with the most noise reduction effect, the equivalent noise level was reduced by 6.6 dB for wheels and 4.7 dB for the car body by active steering control. In addition, analyzing the frequency characteristics by wheel steering control has confirmed that the squeal noise mode generated in the 300 to 2000 Hz band during curve running was significantly reduced. Therefore, the noise reduction performance of the active steering bogie, developed to improve steering performance in curved sections, has been sufficiently verified through the test results.

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来源期刊
Journal of Mechanical Science and Technology
Journal of Mechanical Science and Technology 工程技术-工程:机械
CiteScore
2.90
自引率
6.20%
发文量
517
审稿时长
7.7 months
期刊介绍: The aim of the Journal of Mechanical Science and Technology is to provide an international forum for the publication and dissemination of original work that contributes to the understanding of the main and related disciplines of mechanical engineering, either empirical or theoretical. The Journal covers the whole spectrum of mechanical engineering, which includes, but is not limited to, Materials and Design Engineering, Production Engineering and Fusion Technology, Dynamics, Vibration and Control, Thermal Engineering and Fluids Engineering. Manuscripts may fall into several categories including full articles, solicited reviews or commentary, and unsolicited reviews or commentary related to the core of mechanical engineering.
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