Impact Behaviour Modelling of Magnetorheological Elastomer Using a Non-Parametric Polynomial Model Optimized with Gravitational Search Algorithm

Authors

  • Amrina Rasyada Zubir Department of Mechanical Engineering, National Defence University of Malaysia, Malaysia
  • Khisbullah Hudha Department of Mechanical Engineering, National Defence University of Malaysia, Malaysia
  • Zulkiffli Abd. Kadir Department of Mechanical Engineering, National Defence University of Malaysia, Malaysia
  • Noor Hafizah Amer Department of Mechanical Engineering, National Defence University of Malaysia, Malaysia

DOI:

https://doi.org/10.5545/sv-jme.2023.604

Keywords:

magnetorheological damper, polynomial model, gravitational search algorithm, force-displacement characteristic, interpolated model

Abstract

This paper presents an approach to model the impact behaviour of a dual-acting magnetorheological elastomer (MRE) damper using 4th-order polynomial functions optimized with a gravitational search algorithm. MRE is a type of smart material that can change its mechanical properties in response to an injected current, making it well-suited for a wide range of applications such as vibration absorption, noise cancellation, and shock mitigation. The proposed model uses a combination of polynomial functions designed to predict the nonlinearity of MRE during compression and extension stages. The model is tuned and validated using experimental data from impact tests conducted on the MRE damper under various currents. The results indicate that the developed model can accurately track the impact behaviour of MRE with minimum error. Additionally, an interpolation model is proposed to estimate the appropriate forces for median currents. The interpolation model predicts the force between the upper and lower currents, demonstrating the model's ability to predict MRE behaviour accurately. The main contribution of this study is proposing a non-parametric model of MRE that is able to identify the hysteretic behaviour of the MRE based on specific current applied. In addition, an interpolation model is introduced in this study to cover not only the input current starting from 0 A to 2 A but also the intermediate current such as 0.3 A, 0.7 A, 1.3 A and 1.7 A.

Downloads

Additional Files

Published

2023-11-21

How to Cite

Zubir, A. R., Hudha, K., Abd. Kadir, Z., & Amer, N. H. . (2023). Impact Behaviour Modelling of Magnetorheological Elastomer Using a Non-Parametric Polynomial Model Optimized with Gravitational Search Algorithm. Strojniški Vestnik - Journal of Mechanical Engineering, 69(11-12), 471–482. https://doi.org/10.5545/sv-jme.2023.604