[1]刘章红,黎 洋,付文强,等.轮对扁疤动态冲击激励对车辆垂向振动特性的影响[J].机车电传动,2019,(06):28-32.[doi:10.13890/j.issn.1000-128x.2019.06.108]
 LIU Zhanghong,LI Yang,et al.Influence of Wheel Flat Scar Dynamic Impact on Vertical VibrationCharacteristics of the Vehicles[J].Electric Drive for Locomotives,2019,(06):28-32.[doi:10.13890/j.issn.1000-128x.2019.06.108]
点击复制

轮对扁疤动态冲击激励对车辆垂向振动特性的影响()
分享到:

机车电传动[ISSN:1000-128X/CN:43-1125/U]

卷:
期数:
2019年06期
页码:
28-32
栏目:
研究开发
出版日期:
2019-11-10

文章信息/Info

Title:
Influence of Wheel Flat Scar Dynamic Impact on Vertical VibrationCharacteristics of the Vehicles
文章编号:
1000-128X(2019)06-0028-05
作者:
刘章红12黎 洋1付文强1吴玉超1蔡永戈1
(1.四川航天职业技术学院,四川 成都 610100;2.西南交通大学 机械工程学院,四川 成都 610031)
Author(s):
LIU Zhanghong1 2 LI Yang1 FU Wenqiang1 WU Yuchao1 CAI Yongge1
( 1. Sichuan Aerospace Vocational Technical College, Chengdu, Sichuan 610100, China;2. School of Mechanical Engineering, Southwest Jiaotong University, Chengdu, Sichuan 610031, China )
关键词:
轮对扁疤轮轨冲击动车组动力学性能高速列车仿真
Keywords:
wheel flat scar wheel rail impact EMUs dynamic performance high-speed train simulation
分类号:
U266.2;U270.1+1
DOI:
10.13890/j.issn.1000-128x.2019.06.108
文献标志码:
A
摘要:
在轨道车辆高速运行过程中,由于紧急制动或者轮对打滑空转等原因造成的踏面局部擦伤和剥离统称为轮对扁疤。基于计算多体动力学和轮轨接触理论,建立了考虑扁疤冲击的动车组动力学模型,模拟车辆的动态响应特性。在该模型的基础上研究了高速列车轮对新旧扁疤以及几何尺寸对车辆系统动态行为的影响,给出不同速度下车体、构架、轴箱垂向振动等振动状况,确定高速行车条件下轮对扁疤对动力学性能的影响。结果表明:轮对扁疤对高速动车组轮轨接触及轴箱垂向激扰有着极大的影响,在轮对扁疤作用下,轮轨冲击和轴箱振动情况比正常轮对情况要严重得多;另一方面由于一系钢簧和二系空气弹簧低频滤波作用的存在,削弱了扁疤振动激扰对构架和车体的影响。
Abstract:
In the process of high-speed operation of railway vehicles, the local tread scratches and stripping caused by emergency braking or wheel pair skidding and idling are collectively referred to as wheel flat scar. Based on computational multi-body dynamics and wheel-rail contact theory, a dynamic model of EMUs considering flat scar impact was established to simulate the dynamic response characteristics of vehicles. On the basis of this model, the influence of old and new flat scar and geometric dimensions wheel pairs on the dynamic behavior of vehicle system was studied. The vibration status of vehicle body, frame and axle box at different speeds was given, and the influence of wheel flat scar on dynamic performance under high-speed driving conditions was determined. The results showed that wheel flat scar has a great influence on wheel-rail contact and axle box vertical excitation of high-speed EMUs. Under the action of wheel flat scar, wheel rail impact and axle box vibration are much more serious than that of normal wheel rail; on the other hand, due to the existence of low-frequency filtering function of primary spring and secondary air spring, the influence of wheel flat scar vibration excitation on frame and body is weakened.

参考文献/References:

[1] 王姣娥, 丁金学. 高速铁路对中国城市空间结构的影响研究[J]. 国际城市规划, 2011, 26(6): 49-54.

[2] 陶功权, 王衡禹, 赵鑫, 等. 基于轮轨关系的车轮踏面损伤机理研究[J]. 机械工程学报, 2013, 49(18): 23-29.
[3] 李霞, 温泽峰, 金学松. 地铁轮对踏面异常磨耗原因分析[J]. 机械工程学报, 2010, 46(16): 60-66.
[4] 王晨, 马卫华, 罗世辉, 等. 机车车辆踏面损伤机理研究[J]. 振动、测试与诊断, 2016, 36(5): 890-896.
[5] 蒋欣, 刘泰, 李克雷. 城轨车辆轮对踏面擦伤的分析[J]. 机车电传动, 2012(6): 61-63.
[6] NEWTON S G, CLARK R A. An investigation into the dynamic effects on the track of wheel flats on railway vehicles [J]. Journal of Mechanical Engineering Science, 1979, 21(4): 287-297.
[7] 张宝安, 郑静, 周和超. 基于格林函数的轮轨缺陷对轮轨垂向动态相互作用的研究[J]. 四川理工学院学报(自科版), 2017, 30(2): 26-31.
[8] 韩亮亮, 敬霖, 赵隆茂. 基于Cowper-Symonds本构模型铁路车轮扁疤激发的轮轨冲击仿真分析[J].高压物理学报, 2017, 31(6): 785-793.
[9] 邹航宇, 张卫华, 王志伟. 车轮扁疤对高速列车齿轮箱动态特性影响分析[J]. 铁道机车车辆, 2018, 38(3): 29-33.
[10] 王晨, 王旭, 罗世辉, 等. 轮对扁疤对高速列车转向架振动特性的影响[J]. 中国机械工程, 2017, 28(2): 246-251.
[11] 姜涛, 孙守光, 李强, 等. 轮对扁疤引起的车轴附加载荷的仿真研究[J]. 北方交通大学学报, 1998, 22(4): 61-65.
[12] 杨新文, 翟婉明. 车轮扁疤激起的轮轨冲击噪声机理分析[J]. 振动与冲击, 2009, 28(8): 46-49.

相似文献/References:

[1]刘章红,黎 洋,付文强,等. 轮对扁疤动态冲击激励对车辆垂向振动特性的影响[J].机车电传动,2019,(06):1.[doi:10.13890/j.issn.1000-128x.2019.06.108]
 LIU Zhanghong,LI Yang,et al. Influence of Wheel Flat Scar Dynamic Impact on Vertical Vibration Characteristics of the Vehicles[J].Electric Drive for Locomotives,2019,(06):1.[doi:10.13890/j.issn.1000-128x.2019.06.108]

备注/Memo

备注/Memo:
作者简介:刘章红(1989—),男,硕士,讲师,研究方向为机械设计制造。
更新日期/Last Update: 2019-11-10