Recently, many authors have attempted to represent an automobile body in terms of experimentally derived frequency response functions (FRFs), and to couple the FRFs with a FEA model of chassis for performing a total system dynamic analysis. This method is called Hybrid FEA-Experimental FRF method, or briefly HYFEX. However, in cases where the chassis model does not include the bushing models, one can not directly connect the FRFs of the auto body to the chassis model for performing a total system dynamic analysis. In other cases when the chassis model includes the bushings, the bushing dynamic rates are modeled as constant stiffness rather than frequency dependent stiffness, the direct use of the HYFEX method will yield unsatisfactory results. This paper describes how the FRF's of the auto body and the frequency dependent stiffness data of the bushings can be combined with an appropriate mathematical formulation to better represent the dynamic characteristics of a full vehicle. A simple example is given to illustrate the validity of the method provided in this paper, and the method is then applied to a Jeep axle noise analysis. As a check, a full vehicle transfer path analysis was conducted experimentally and good correlation between the simulation and test results has been obtained.
A Hybrid Method for Vehicle Axle Noise Simulation with Experimental Validation
Sae Technical Papers
SAE 2003 Noise & Vibration Conference and Exhibition ; 2003
2003-05-05
Conference paper
English
A hybrid method for vehicle axle noise simulation with experimental validation
Automotive engineering | 2003
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