Theoretical research on aggregative dynamic pressure damper 被引量：1

Theoretical research on aggregative dynamic pressure damper

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摘要 To broaden the frequency width and increase the damping coefficient of a dynamic pressure damper, we designed an aggregative dynamic pressure damper (ADPD). Combined with the advantages of traditional dynamic pressure dampers (TDPD), ADPD can not only increase the damping coefficient in wide frequency range for valve control system, but also absorb partial pressure pulsations and impacts in the low and high frequency fields. Based on the theoretical research and the analysis compared with TDPD, we concluded that the ADPD was superior to the TDPD in the middle high frequency field, and the main parameters influencing the performance of the damper were the damping stiffness, orifice flow coefficient, pre-charge pressure, and the volume of the damper accumulator. To broaden the frequency width and increase the damping coefficient of a dynamic pressure damper, we designed an aggregative dynamic pressure damper （ADPD）. Combined with the advantages of traditional dynamic pressure dampers （TDPD）, ADPD can not only increase the damping coefficient in wide frequency range for valve control system, but also absorb partial pressure pulsations and impacts in the low and high frequency fields. Based on the theoretical research and the analysis compared with TDPD, we concluded that the ADPD was superior to the TDPD in the middle high frequency field, and the main parameters influencing the performance of the damper were the damping stiffness, orifice flow coefficient, pre-charge pressure, and the volume of the damper accumulator.

作者胡军华

机构地区 Department of Mechanical Science and Engineering

出处《Journal of Chongqing University》 CAS 2009年第3期188-194,共7页 重庆大学学报（英文版）

关键词 aggregative dynamic pressure damper damping coefficient pressure pulsation 压力调节器聚集阻尼系数 TDPD 阻尼器频率宽度频率范围控制系统

分类号 TB535 [理学—声学]

作者简介 HU Jun-hua （胡军华）： bobyhu@126.com; bobyhu2000@yahoo.com.cn.

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参考文献12

1王春行主编.液压控制系统[M]. 机械工业出版社, 1999
2李洪人主编.液压控制系统[M]. 国防工业出版社, 1990
3Tsu-sheng Chang,Mahendra P.Singh.Seismic analysis of structures with a fractional derivative model of viscoelastic dampers[J].Earthquake Engineering and Engineering Vibration,2002,1(2):251-260. 被引量：14
4Xu ZD.Earthquake mitigation study on viscoelastic dampers for reinforced concrete structures[].Journal of Vibration and Control.2007
5Milecki A,Sedziak D.The use of magnetorheological fluid dampers to reduce servo drive velocity jumps due to load changes[].Journal of Intelligent Material Systems and Structures.2005
6Pekcan G,Mander JB,Chen SS.Experiments on steel MRF building with supplemental tendon system[].Journal of Structural Engineering.2000
7Okada Y,Nakada T.Analysis and experiments on an electro-hydraulic torsional servo vibration damper[].Bulletin of the JSME.1976
8Shih MH,Sung WP,Go CG.Development of accumulated semi-active hydraulic damper[].Experiment Techniques.2002
9Sung WP,Shih MH.Testing and modeling for energy dissipation behavior of velocity and displacement dependent hydraulic damper[].Tsinghua Science and Technology.2008
10Verma V,Ghosh AK,Kushwaha HS.Dynamic characteristics of a hydraulic damper[].American Society of Mechanical Engineers Pressure Vessels and Piping Division (Publication) PVP.2002

二级参考文献1

1Tsu-sheng Chang,Mahendra P.Singh.Seismic analysis of structures with a fractional derivative model of viscoelastic dampers[J].Earthquake Engineering and Engineering Vibration,2002,1(2):251-260. 被引量：14

共引文献13

1Tsu-sheng Chang,Mahendra P.Singh.Seismic analysis of structures with a fractional derivative model of viscoelastic dampers[J].Earthquake Engineering and Engineering Vibration,2002,1(2):251-260. 被引量：14
2Z.D. Yang,Eddie S.S. Lam.Dynamic responses of two buildings connected by viscoelastic dampers under bidirectional earthquake excitations[J].Earthquake Engineering and Engineering Vibration,2014,13(1):137-150. 被引量：4
3师丽坤,赵春娜,关永,施智平,李晓娟,叶世伟.实数二项式系数在HOL4中的形式化[J].计算机科学,2014,41(2):15-18. 被引量：1
4李创第,尉霄腾,王磊石,邹万杰.积分型粘弹性阻尼器耗能结构瞬态响应的精确解[J].广西大学学报（自然科学版）,2016,41(1):83-90. 被引量：7
5Jae-Do Kang,Hiroshi Tagawa.Comparison between experimental and analytical results for seesaw energy dissipation systems using fluid viscous dampers[J].Earthquake Engineering and Engineering Vibration,2016,15(1):79-90.
6王梦祥,李创第,葛新广,李暾,邹万杰.五参数Maxwell阻尼减震系统非平稳响应解析分析[J].广西大学学报（自然科学版）,2017,42(4):1256-1272.
7Joaquim Mimusse Tchamo,Zhou Ying.An alternative practical design method for structures with viscoelastic dampers[J].Earthquake Engineering and Engineering Vibration,2018,17(3):459-473. 被引量：3
8孔凡,王恒,徐军,李书进.分数阶导数系统响应功率谱密度的小波-Galerkin方法[J].振动工程学报,2018,31(4):671-680. 被引量：3
9Zeshan Alam,Chunwei Zhang,Bijan Samali.The role of viscoelastic damping on retrofitting seismic performance of asymmetric reinforced concrete structures[J].Earthquake Engineering and Engineering Vibration,2020,19(1):223-237.
10邹万杰,邬丽霞,李创第,葛新广.基于Kanai-Tajimi谱的单自由度广义Maxwell耗能结构响应及谱矩解法[J].广西科技大学学报,2020,31(2):17-24. 被引量：7

同被引文献5

1王占林．液压伺服系统[M]．北京：北京航空学院出版社，1987．
2王春行.液压伺服控制系统[M].北京:机械工业出版社,2000.
3熊绍钧.水利水电液压设备的发展现状[J].液压与气动,1997,21(3):3-5. 被引量：4
4陈国琳,黄亚农,刘义成.动压阻尼器设计及仿真分析[J].液压气动与密封,2001(1):28-31. 被引量：4
5牛春立,李晶.大型水坝升船机船箱液压系统[J].液压与气动,2002,26(11):42-43. 被引量：3

引证文献1

1牛子华,曹树平,胡军华,周翔.复合型动压阻尼器的仿真研究[J].水电能源科学,2011,29(1):132-134.

1李明才.根据记录运行频率，结合变频器的“回避频率”和“回避频率宽度”参数设置功能[J].电气应用,2010(20):18-18.
2薛润林,黄克斌.焦炉荒煤气微压自动调节的改进[J].全国造气技术通讯,2000(3):22-24.
3汪若尘,叶青,孙泽宇,谢健,陈龙,眭忠.基于液压惯容器的ISD悬架性能分析与试验[J].振动．测试与诊断,2016,36(2):366-371. 被引量：8
4赵霞,张永发.Electrorheological Damper and Its Application for Semi-Active Suspension System[J].Journal of Beijing Institute of Technology,2007,16(1):9-12. 被引量：1
5薛润林,黄克斌,张勇.焦炉荒煤气微压自动调节的改进[J].化工自动化及仪表,2000,27(1):16-17.
6Ning Zhu,Shou-Guang Sun,Qiang Li,Hua Zou.Theoretical research and experimental validation of quasi-static load spectra on bogie frame structures of high-speed trains[J].Acta Mechanica Sinica,2014,30(6):901-909. 被引量：15
7陈捍东,黄党委,刘宁,欧庆峰.2^#镀锌线光整机辊缝及压力控制系统[J].安徽冶金,2006(3):50-53.
8马登成,杨士敏,陈筝,丁智勇.蓄能器对工程机械液压系统影响的仿真与试验[J].中国公路学报,2013,26(2):183-190. 被引量：26
9ZHU Ning,SUN Shouguang,LI Qiang,ZOU Hua.Theoretical Research and Experimental Validation of Elastic Dynamic Load Spectra on Bogie Frame of High-speed Train[J].Chinese Journal of Mechanical Engineering,2016,29(3):498-506. 被引量：13
10Jianguo Xu,Xiang Liu,Bo Wang,Huai Chen.Semi-active Control with Variable Damper for Pier-Beam Transversal Vibration[J].Journal of Civil Engineering and Architecture,2010,4(2):41-46.

Journal of Chongqing University

2009年第3期

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