To investigate the dynamic characteristics and damping theory of the passive hydraulic engine mount (PHEM), numerical prediction is performed through lumped parameter model. System parameters, including volume compl...To investigate the dynamic characteristics and damping theory of the passive hydraulic engine mount (PHEM), numerical prediction is performed through lumped parameter model. System parameters, including volume compliance of the decoupler chamber, effective piston area, fluid inertia and resistance of inertia track and direct-decoupler, are identified by means of experiments and finite element method (FEM). Dynamic behaviors are tested with elastomer test system for purpose of validating PHEM. With incorporation of inertia track and direct-decoupler, PHEM behaves effective and efficient vibration isolation in range of both low and high frequencies. The comparison of the numerical results with the experimental observations shows that the present PHEM achieves fairly good performance for the engine vibration isolation.展开更多
采用电致伸缩材料作为主动控制作动器的智能悬置,利用Matlab软件,并考虑了惯性通道、解耦通道以及电致伸缩作动器的非线性,建立了该悬置的仿真模型。选择滤波后的 x LMS算法作为控制算法,通过仿真计算研究了该悬置的隔振性能。采用查表...采用电致伸缩材料作为主动控制作动器的智能悬置,利用Matlab软件,并考虑了惯性通道、解耦通道以及电致伸缩作动器的非线性,建立了该悬置的仿真模型。选择滤波后的 x LMS算法作为控制算法,通过仿真计算研究了该悬置的隔振性能。采用查表的办法由控制位移求解控制电压,能有效地避免作动器非线性对系统性能的不良影响。研究结果表明:对系统施加控制后,传递到车身上的振动大大减弱,在6 s内振动力降到未施加主动控制时的3%,20s后降到未施加主动控制时的1%。说明采用主动控制能有效地改善悬置的隔振性能。展开更多
基金National Hi-tech Research Development Program of China(863 Program,No.2001AA505000-11)
文摘To investigate the dynamic characteristics and damping theory of the passive hydraulic engine mount (PHEM), numerical prediction is performed through lumped parameter model. System parameters, including volume compliance of the decoupler chamber, effective piston area, fluid inertia and resistance of inertia track and direct-decoupler, are identified by means of experiments and finite element method (FEM). Dynamic behaviors are tested with elastomer test system for purpose of validating PHEM. With incorporation of inertia track and direct-decoupler, PHEM behaves effective and efficient vibration isolation in range of both low and high frequencies. The comparison of the numerical results with the experimental observations shows that the present PHEM achieves fairly good performance for the engine vibration isolation.
文摘采用电致伸缩材料作为主动控制作动器的智能悬置,利用Matlab软件,并考虑了惯性通道、解耦通道以及电致伸缩作动器的非线性,建立了该悬置的仿真模型。选择滤波后的 x LMS算法作为控制算法,通过仿真计算研究了该悬置的隔振性能。采用查表的办法由控制位移求解控制电压,能有效地避免作动器非线性对系统性能的不良影响。研究结果表明:对系统施加控制后,传递到车身上的振动大大减弱,在6 s内振动力降到未施加主动控制时的3%,20s后降到未施加主动控制时的1%。说明采用主动控制能有效地改善悬置的隔振性能。