[1]孟祥昊,于坤鹏,王志海.考虑结构非线性的轴系传动随机振动响应分析[J].机械与电子,2024,42(06):45-49.
 MENG Xianghao,YU Kunpeng,WANG Zhihai.Analysis of Random Vibration Response of Shafting Transmission Considering Structural Nonlinearity[J].Machinery & Electronics,2024,42(06):45-49.
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考虑结构非线性的轴系传动随机振动响应分析()
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《机械与电子》[ISSN:1001-2257/CN:52-1052/TH]

卷:
42
期数:
2024年06期
页码:
45-49
栏目:
智能制造
出版日期:
2024-06-28

文章信息/Info

Title:
Analysis of Random Vibration Response of Shafting Transmission Considering Structural Nonlinearity
文章编号:
1001-2257 ( 2024 ) 06-0045-05
作者:
孟祥昊于坤鹏王志海
中国电子科技集团公司第三十八研究所,安徽 合肥 230088
Author(s):
MENG Xianghao YU Kunpeng WANG Zhihai
( No.38th Research Institute of CETC , Hefei 230088 , China )
关键词:
随机振动非线性时域仿真
Keywords:
random vibration nonlinear time domain simulation
分类号:
TH113.1 ; O324
文献标志码:
A
摘要:
为了研究转轴结构中零件配合状态、间隙等非线性因素对其随机振动响应的影响,基于显式动力学分析,在时域内对转轴结构的随机振动响应进行了仿真。结果表明处于紧密配合状态的零件间振动传递更加平顺,响应幅值小于临界状态。当结构存在间隙时,其响应幅值随着间隙的增大而显著下降,但零件间的碰撞会导致结构高频段的响应增加,同时也会加剧零件的磨损。研究结论可以为结构的设计理念和选型方法提供参考。
Abstract:
In order to study the influence of nonlinear factors such as fit state and clearance on the random vibration response of the shaft structure , its random vibration response is simulated in the time domain based on explicit dynamics analysis.The results show that the vibration transmission between parts in the interference fit state is smoother than that in the critical state , which results in a smaller response amplitude.When clearance occurs between the parts , the response amplitude shall decrease significantly as the clearance widens.However , the collision between the parts will increase the high-frequency response of the structure , which may also intensify the wear of the parts.The conclusions can provide references for structural design concepts and selection methods.

参考文献/References:

[ 1 ] 彭超,王平安,张平 . 基于加权平均的机载雷达天线随机振动激励条件分解与应用[ J ] .机械与电子, 2021 ,39 ( 7 ): 28-32 , 39.

[ 2 ] GAO D Y , YAO W X , WEN W D , et al.Equivalent spectral method to estimate the fatigue life of composite laminates under random vibration loadings [ J ] .Mechanics of composite materials , 2021 , 57 ( 1 ): 101-114.
[ 3 ] 林利红,陈小安,缪莹赟 . 接触非线性结构的随机振动数值仿真分析[ J ] . 中国机械工程, 2009 , 20 ( 11 ): 1352-1355 , 1360.
[ 4 ] SUN C , JAHANGIRI V.Fatigue damage mitigation of offshore wind turbines under real wind and wave conditions [ J ] .Engineering structures , 2019 , 178 : 472-483.
[ 5 ] YANG H C , CHOU H C , HSU S Y , et al.The influence of boundary conditions on nonlinear time domain site response analysis using LS-DYNA [ J ] .Computers and geotechnics , 2023 , 159 : 105477.
[ 6 ] CHEN J , IMANIAN A , WEI H Y , et al.Piecewise stochastic rainflow counting for probabilistic linear and nonlinear damage accumulation considering loading and material uncertainties [ J ] .International journal of fatigue , 2020 , 140 : 105842.
[ 7 ] 魏盛兴,钱诚,任羿,等 . 基于时频域转换及雨流法的电子设备随机振动概率疲劳损伤预测[ J ] . 南京航空航天大学学报,2023 , 55 ( 3 ): 489-496.
[ 8 ] 朱光宇,郑保仲 . 随机振动螺栓松动数值仿真分析[ J ]机械设计与制造,2018 ( 1 ): 233-235.
[ 9 ] 孙宁,李瑰贤 . 随机振动信号的一种简单模拟计算方法[ J ] . 振动与冲击, 2000 , 19 ( 2 ): 50-53.
[ 10 ] 李舜酩,郭海东,李殿荣 . 振动信号处理方法综述[ J ] .仪器仪表学报,2013 , 34 ( 8 ): 1907-1915.
[ 11 ] 钟佑明,秦树人,汤宝平 . 一种振动信号新变换法的研究[ J ] . 振动工程学报, 2002 , 15 ( 2 ): 233-238.
[ 12 ] 蒋海波,罗世辉,懂仲美 .Blackman-Turkey 法的轨道不平顺数值模拟[ J ]中国测试技术,2006 ( 7 ): 97-100.
[ 13 ] 卢绪祥,刘正强,黄树红,等 . 含间隙碰撞振动系统的非线性振动特性[ J ] . 动力工程学报,2012 , 32 ( 5 ):388-393.

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备注/Memo

备注/Memo:
收稿日期: 2023-10-26
基金项目:国防科工局基础科研项目( JCKY2021210B007 , JCKY2020210B007 )
作者简介:孟祥昊 ( 1993- ),男,江苏镇江人,博士,工程师,研究方向为电子装备力学特性仿真及优化、结构冲击动力学仿真及实验等。
更新日期/Last Update: 2024-07-02