Optimal design of nonlinear hydraulic engine mount

This paper shows that the performance of a nonlinear fluid engine mount can be improved by an optimal design process The property of a hydraulic mount with inertia track and decouplen differs according to the disturbance frequency range. Since the excitation amplitude is large at low excitation frequency range and is small at high excitation frequency range, mathematical model of the mount can be divided into two linear models One is a low frequency model and the other is a high frequency model The combination of the two models is very useful in the analysis of the mount and is used for the first time in the optimization of an engine mount in this paper Normally, the design of a fluid mount is based on a trial and error approach in industry because there are many design parameters In this study, a nonlinear mount was optimized to minimize the transmissibilities of the mount at the notch and the resonance frequencies for low and high-frequency models by a popular optimization technique of sequential quadratic programming (SQP) supported by MATLAB(r) subroutine. The results show that the performance of the mount can be greatly improved for the low and high frequencies ranges by the optimization method

[1]  K. Y. Lam,et al.  DESIGN OPTIMIZATION OF MARINE ENGINE-MOUNT SYSTEM , 2000 .

[2]  Rajendra Singh,et al.  Linear analysis of automotive hydro-mechanical mount with emphasis on decoupler characteristics , 1992 .

[3]  Kwang-Kyu Seo,et al.  Development of a rule-based inference model for human sensibility engineering system , 2005 .

[4]  Alan G. Haddow,et al.  On the Dynamic Response of Hydraulic Engine Mounts , 1993 .

[5]  Mehdi Ahmadian,et al.  Modelling and Performance of an Experimental Active Vibration Isolator , 1995 .

[6]  Wallace C. Flower,et al.  Understanding hydraulic mounts for improved vehicle noise, vibration and ride qualities , 1985 .

[7]  Uhn Joo Na Fault tolerant control of magnetic bearings with force invariance , 2005 .

[8]  Kazuya Takano,et al.  High Performance Hydraulic Mount for Improving Vehicle Noise and Vibration , 1988 .

[9]  Thomas J. Royston,et al.  Study of nonlinear hydraulic engine mounts focusing on decoupler modeling and design , 1997 .

[10]  Steve J. Gau,et al.  Experimental Study and Modeling of Hydraulic Mount and Engine System , 1995 .

[11]  Leon M Keer,et al.  Modelling of a hydraulic engine mount focusing on response to sinusoidal and composite excitations , 1995 .

[12]  Nagi G. Naganathan,et al.  Automotive Vehicle Engine Mounting Systems: A Survey , 2001 .

[13]  G. Kim,et al.  A study of passive and adaptive hydraulic engine mount systems with emphasis on non-linear characteristics , 1995 .

[14]  Bo-Suk Yang,et al.  Optimal design of engine mount using an artificial life algorithm , 2003 .

[15]  N. Suresh,et al.  Development of Idealistic Hydromount Characteristics to Minimize Engine Induced Vibrations Using Unconstrained Minimization , 1994 .

[16]  Akio Nagamatsu,et al.  Optimum Design Method for Hydraulic Engine Mounts , 1991 .

[17]  Douglas A. Swanson Active Engine Mounts for Vehicles , 1993 .

[18]  Young T. Choi,et al.  Performance Analysis of Hydraulic Engine Mount by Using Bond Graph Method , 1995 .

[19]  Marc Bernuchon A New Generation of Engine Mounts, 1984 , 1984 .

[20]  Amir Khajepour,et al.  Non-Linear Modelling of Hydraulic Mounts: Theory and Experiment , 2002 .

[21]  M. Bernuchon A new generation of engine mounts , 1984 .

[22]  G. Nakhaie Jazar,et al.  Nonlinear Modeling, Experimental Verification, and Theoretical Analysis of a Hydraulic Engine Mount , 2002 .