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针对某车型整车道路试验过程中出现的后减振器上支座失效问题,通过查看分析故障件的失效状态,结合应用Abaqus软件进行CAE仿真分析,确定了其失效的主要原因是由于在整车运动过程中,上支座衬套的橡胶凸台的应力太大。对此提出了改进的设计方案,通过台架试验和整车道路试验的验证,结果表明,改进后的后减振器上支座解决了耐久失效问题,同时经整车NVH和操稳性能评价后确认改进方案未对整车性能产生不利影响。 相似文献
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以某重型载货汽车为研究对象,提出一种基于车轴位移响应的耐久性虚拟试验方法.该方法首先采集车轴位置的加速度响应;建立基于车轴位移响应驱动的整车多体动力学刚柔耦合模型;接着基于上述试验和刚柔耦合模型复现整车实际道路的载荷历程,预测整车及其关键零部件的疲劳寿命.最后,对其前悬架左减振器支架进行的分析,验证了所提出的试验方法的有效性. 相似文献
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某直列六缸发动机在台架试验中发生曲轴断裂的情况,通过检测确定硅油减振器已失效;为了确定硅油减振器失效与曲轴断裂的关系,搭建了发动机动力学模型对曲轴在可靠性试验台架上的工作状态进行模拟,分析比较了在硅油减振器正常和失效情况下曲轴的负荷情况及相应的疲劳可靠性差异。通过分析确定发动机曲轴断裂的主要原因是硅油减振器失效;在减振器失效后曲轴长时间在轴系扭转共振点附近全负荷运行,振动产生的动力学载荷使曲轴承受的负荷已超出其疲劳强度的限值,发生断裂;对硅油减振器改进后,经过多轮可靠性台架试验,没有再发生曲轴失效的情况。 相似文献
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Damper Models for Heavy Vehicle Ride Dynamics 总被引:18,自引:0,他引:18
F. H. Besinger D. Cebon D. J. Cole 《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》1995,24(1):35-64
A laboratory rig for testing hydraulic dampers using the 'hardware-in-the-loop' method is described, and the accuracy of the test method is investigated. A mathematical model of a hydraulic shock absorber is then developed. The model is suitable for vehicle simulations and has seven parameters which can be determined by simple dynamic measurements on a test damper. The shock absorber model is validated under realistic operating conditions using the test rig, and the relative importance of various features of the model on the accuracy of vehicle simulations is investigated. 相似文献
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SUMMARY A laboratory rig for testing hydraulic dampers using the ‘hardware-in-the-loop’ method is described, and the accuracy of the test method is investigated. A mathematical model of a hydraulic shock absorber is then developed. The model is suitable for vehicle simulations and has seven parameters which can be determined by simple dynamic measurements on a test damper. The shock absorber model is validated under realistic operating conditions using the test rig, and the relative importance of various features of the model on the accuracy of vehicle simulations is investigated. 相似文献
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悬架系统的减振器支架作为连接车架及减振器的零件,在车辆运行过程中,因受到减振器的拉力及压力,经常导致断裂失效,致使减振器无法正常工作。文章以某车型减振器支架的故障断裂为例,采用HyperMesh有限元分析方法对支架进行应力分析,计算结果表明:支架最大应力384MPa,应力最大位置与故障件断裂位置吻合,因此,判断支架因强度不足导致的断裂。针对支架的断裂原因,提出了3种加强改进方案,从应力、重量、成本、整改周期等因素考虑,选择最优的改进方案。整改后的减振器支架3年内售后故障率为0,达到预期效果,整改方案有效。 相似文献
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汽车筒式液阻减振器技术的发展 总被引:29,自引:1,他引:29
分析了汽车乘坐舒适性/行驶平顺性和操作稳定性对筒式液阻减振器特性的要求,提出汽车在不同行驶工况减振器特性的要求是不的;分析了被动式减振器的发展历程及非充气和充气减振器的特点,阐述了机械控制式可调阻尼减振器,电子控制式减振器以及电流变和磁流变液体减器等的结构特点,工作原理及其动态特性;分析了筒式液阻减振器其于经验设计/实验修正开发方法的缺点,阐述了基于CAD/CAE技术的现代设计开发方法的过程及其关键问题,最后分析了我国筒式液阻减振器技术的发展状况及问题,展望了减振器技术的发展前景。 相似文献
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《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2012,50(4):261-285
For purpose of simulation of vehicle dynamics, a physical model of an automotive shock absorber has been developed and implemented in several software packages for multibody simulations. In the present paper, the damper model structure is shortly elaborated together with some measurement and estimation techniques to retrieve the model parameters, possibly from dynamometer measurements only. These techniques are illustrated on a shock absorber normally used on the front suspension of a BMW series 7. 相似文献
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Simulation Tools, Modelling and Identification, for an Automotive Shock Absorber in the Context of Vehicle Dynamics 总被引:9,自引:0,他引:9
Stefaan W. R. Duym 《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2000,33(4):261-285
For purpose of simulation of vehicle dynamics, a physical model of an automotive shock absorber has been developed and implemented in several software packages for multibody simulations. In the present paper, the damper model structure is shortly elaborated together with some measurement and estimation techniques to retrieve the model parameters, possibly from dynamometer measurements only. These techniques are illustrated on a shock absorber normally used on the front suspension of a BMW series 7. 相似文献
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麦弗逊悬架减振器侧向力对减振器寿命和悬架性能影响很大,系统分析减振器侧向力对麦弗逊悬架设计具有重要意义。减振器的侧向力取决于车辆运动时受到的地面的作用力和悬架的几何结构,本文综述了车辆行驶时车轮上下运动的侧向力、加速、减速、转弯时侧向力的分析,确定了麦弗逊悬架的几何结构对减振器侧向力的影响因素,并通过国内外最新产品的实例说明通过改变悬架的几何结构来减小减振器侧向力的具体方法和产生的效果。最后对减振器侧向力进行了总结,并对未来麦弗逊悬架的研发工作提出了一些建议。 相似文献