Simulation and Experimental Studies on the Behaviour of a Magnetorheological Damper Under Impact Loading

Although in this paper, I am not the first author, but the paper almost refers to my previously paper. For your information, the paper is published in one issue. Written is the abstract:

Abstract: This paper is aimed to model behaviour of a magnetorheological (MR) damper under impact loading through polynomial approach. The polynomial model is developed based on curve fitting from experimental results and consists of a three regions namely fluid locking, positive and negative acceleration regions. The experimental results which have been performed using impact test apparatus are evaluated in the form of transmitted force in velocity, displacement, and time domain. The simulation results of the
proposed polynomial model are then compared with the experimental results. Results show that the proposed polynomial model closely follow the experimental data in the three regions under study namely fluid locking, positive and negative accelerations.

Reference to this paper should be made as follows: Pokaad, A.Z.b., Hudha, K., Nasir, M.Z.b.M. and Ubaidillah (2011) ‘Simulation and experimental studies on the behaviour of a magnetorheological damper under impact loading’, Int. J. Structural Engineering, Vol. 2, No. 2, pp.164–187.

The full paper can be seen through this int-j-structural-engineering-vol-2-no-2-2011