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Prediction of Seat Rail and Steering Wheel Vibration at Idle Using Crank Drive and 16-DOF ADAMS Model
Technical Paper
2019-26-0181
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
Due to the recent trend in auto industry to opt for higher power engines, causes increase in vibrations levels in the passenger’s compartment. This requires a better and comprehensive model to analyze vibrations from engine to seat and steering wheel much before the proto stage of development in the design stage itself.
For this purpose, modelling is done in ADAMS multi dynamics and assuming the 16 degrees of freedom of the vehicle. Further, a crank drive model is developed to simulate engine excitation forces comprising unbalanced inertia forces and torque fluctuations and their effects seat rail and steering wheel vibration is derived.
This tool is an attempt to predict such vibrations caused and assist in design enhancement and streamline the procedure.
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Citation
Hazra, S., "Prediction of Seat Rail and Steering Wheel Vibration at Idle Using Crank Drive and 16-DOF ADAMS Model," SAE Technical Paper 2019-26-0181, 2019, https://doi.org/10.4271/2019-26-0181.Data Sets - Support Documents
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References
- X. , Wang and D. , Denkar Hydraulic Engine Mount Isolation for Improved Vehicle Vibration 12th European ADAMS User Conference November 18-19, 1997 Marburg Germany
- A.A. , Geisberger Hydraulic Engine Mount Modeling, Parameter Identification and Experimental Validation University of Waterloo 2000
- R. , Christian and N. , Roy
- J.S. , Karajagikar , N.R. , Rajhans , B.B. , Ahuja , and R.G. , Rajhans Vibration Analysis on Driver Seat for Small Cars SAE Technical Paper 2011-26-0119 2011 10.4271/2011-26-0119