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柴油机曲轴连杆组合结构动态特性分析 被引量:2

Dynamic Characteristics of Crankshaft-Connecting Rod of Diesel Engine
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摘要 以康明斯6BT5.9柴油机曲轴连杆组合结构为研究对象,采用试验模态分析和有限元理论分析相结合的方法得到其动态特性,进而改善动力性能,降低振动强度,优化结构设计.在进行有限元理论分析时,分别采用耦合自由度法、弹簧-阻尼单元联接法、虚拟材料法模拟曲轴连杆的边界联接方式.对试验模态分析法与理论模态分析法所得到的模态参数采用频率准则进行相关性分析,可以看出弹簧-阻尼单元联接法、虚拟材料法得到的计算值与试验值相关性更高,即这两种方法在结合面接触处理上更合理,为柴油机整机动态分析及优化设计提供了理论依据. The dynamic characteristics of crankshaft-connecting rod of the Cummins 6BT5.9 diesel engine were studied using a combined method of experimental modal and finite element analysis to optimize the dynamic performance,intensity of vibration and structure design.In the finite element analysis,the boundary conditions of combined structure were simulated by methods of coupled degrees of freedom,spring-damper unit connection and virtual material,respectively.Frequency criteria was then used to investigate the correlation analysis of the modal parameters obtained.It shows that the correlation between the calculated and experimental parameters by spring-damper unit connection and virtual material method is higher,which are more reasonable in dealing with the joint surface contact.It provides a theoretical basis for dynamic analysis and optimization design of diesel engine.
作者 孙丽娜 李沈 花纯利 刘颖
机构地区 东北大学机械工程与自动化学院
出处 《东北大学学报(自然科学版)》 EI CAS CSCD 北大核心 2012年第12期1762-1765,共4页 Journal of Northeastern University(Natural Science)
基金 国家重点基础研究发展计划项目子课题(1103401)
关键词 柴油发动机 动态特性 有限元法 曲轴连杆 虚拟材料 diesel engine dynamic characteristics finite element method crankshaft-connecting rod virtual material
分类号 TK423 [动力工程及工程热物理—动力机械及工程]
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参考文献8

  • 1Geng Z M,Chen J,Barry H J. Analysis of engine vibrationand design of an applicable diagnosing approach [ J].International Journal of Mechanical Sciences,2003,45(4):1391 - 1410.
  • 2李小雷,崔志琴,苏铁熊,杨世文,张保成,赵冬青.大功率柴油机复杂组合结构的有限元模态分析[J].内燃机工程,2002,23(1):16-18. 被引量:5
  • 3Pol D S, Panayiotis C R, Nikolaos PAP. Dynamic analysisof stacked rigid blocks [ J]. Soil Dynamics and EarthquakeEngineering , 2001,21:559 — 578.
  • 4Shanmugam A, Chandramouli P. A fixed-free interfacecomponent mode synthesis method for rotor dynamic analysis[J]. Journal of Sound and Vibration , 2006,297(3/4/5):664-679.
  • 5Wang X Y, James K M. Dynamic modeling of a flexible-linkplanar parallel platform using a sub structuring approach[j].Mechanism and Machine Theory , 2006,41:671 — 687.
  • 6Foster CD. A method of improving FEMs by usingexperimental data: application and implications for vibrationmonitoring [ J]. International Journal of MechanicalScience,2008,32(3): 191 _ 203.
  • 7Yabuno H,Nayfeh A H. Nonlinear normal modes of aparametrically excited cantilever beam [ J]. NonlinearDynamics , 2001,25( 1 /2/3) : 65 — 77.
  • 8Masson G, Ait B B, Cogan S, et al. Component modesynthesis ( CMS) based on an enriched Ritz approach forefficient structural optimization [ J]. Journal of Sound andVibration,2006,296(4/5) :845 - 860.

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东北大学学报(自然科学版)
2012年 第12期

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