Journal of Advanced Marine Engineering and Technology

The Korean Society of Marine Engineering (한국마린엔지니어링학회)
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Mathematical Model of Shock Absorber for Performance Prediction of Automobile

  • Published : 2003.07.01
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Abstract

Automotive shock absorber may not be regarded as only one(simple) damping machine because it is composed of many components, and shows non-linear damping characteristics. No matter how advanced form of shock absorber is developed, the oil shock absorber can not be neglected. because their structures are based on the oil shock absorber. Therefore it is essential to accurately analyze the dynamic characteristics of oil shock absorber. It stands mainly roi damper valve tuning which nowadays is still exhaustively done by means of ride work. In this study, damping mechanism and dynamic characteristics for oil shock absorber of twin tube type are analyzed, based on the mathematical model considering internal flow and pressure. For the reliability of numerical prediction. the database is constructed within the limit of adequate reliability. Finally, the programmed system that gives out necessary specification by inputting damping specification and tolerance is to be constructed.

Keywords

References

  1. Technical Center Report Dynamic Behavior and Oil Flow Analysis of the Automotive Shock Absorber Daewoo Telecom. Ltd.
  2. Journal of the Korean Society of Precision Engineering v.14 no.6 Dynamic Behavior Analysis of shock Absorber on Vehicle J.W.Park;S.Y.Shin;D.W.Joo;S.B.Lee
  3. Journal of the Korean Society of Precision Engineering v.14 no.11 A Study on the Stroke Sensitive Shock Absorber J.W.Park;D.W.Joo;Y.H.Kim
  4. Proceeding of the Korean Society of Precision Engineering Dynamic Characteristics Analysis of A Manually-Controlled Damper for Driver's Seat of Commercial Vehicles J.W.Park;W.K.Baek;Y.H.Kim
  5. PhD. Dissertation, University of michigan A Study of the Characteristics of Automotive Hydraulic Dampers at High Stroking Frequencies Lang;Harold Harvey
  6. Vehicle System Dynamics v.10 The Mechanics of Automotive Hydraulic Damper at High Stroking Frequencies Segel,L.;Lang,H.H. https://doi.org/10.1080/00423118108968640
  7. Proc. Symp. Simulation and Control of Ground Vehicles and Transportation Systems A Non-linear Shock Absorber Model Karadayi,R.;Masada,G.Y.
  8. SAE International Congress A Non Linear Parametric Model of an Automotive Shock Absorber Reybrouck,K.
  9. Proceedings of the $21^{st}$ International Seminar on Modal Analysis. Noise and Vibration Engineering Conference Fast Parametric and Non-Parametric identification of Shock Absorbers Duym,S.;R.Stiens;Reybrouck,K.
  10. $11^{th}$ European ADAMS User' Conference v.19;20 A Phyisical Parametric Model for Nonlinear Dynamic and Temperature-Depindent Behavior of Automotive Shock Absorbers Reybrouck,K.;Duym,S.
  11. Hydraulic Control System H.E.Merritt
  12. Fluid Mechanics B.J.Son;J.S.Maeng
  13. ASME Trans. Pressure Drop and Flow Characteristics of short Capillary Tube at Low Reynolds Numbers Kreith,F.;R.Eisenstadt.