Mathematical modelling of passive discrete lumped parameter system using standard malaysian rubber constant viscosity
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Date
2021-08Author
Mohd Azli, Salim
Adzni, Md. Saad
Feng, Dai
Norbazlan, Mohd Yusof
Nor Azmmi, Masripan
Aminurrashid, Noordin
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This paper represents the basic and circular vibration isolator in High Frequencies using
Malaysian natural rubber. Rubber material is chosen because it has very high damping to
ensure the sufficient dissipation of vibration energy from the seismic wave. They are two
methods involve in this paper, which are lumped parameter and wave propagation
techniques. The lumped parameter system is developed to represent the baseline model of
laminated rubber-metal spring. Wave propagation model is developed using nondispersive
rod. The mathematical modeling of laminated rubber-metal spring has been
developed based on the internal resonance, lumped parameter and finite rod model,
respectively. For a conclusion, the mathematical modeling of a prediction of basic and
circular vibration isolator can be as a tool to predict the new trial-error method for
developing new compounding of the vibration isolator in future, respectively.