Journal ArticleDOI
Vibration analysis of a multi-layer beam containing magnetorheological fluid
TLDR
In this paper, the authors investigated the properties of a multi-layered beam with MR fluid as a sandwich layer between the two layers of the continuous elastic structure and formulated the governing equations of a multilayer MR beam in the finite element form and using the Ritz method.Abstract:
Magnetorheological (MR) materials exhibit rapid variations in their rheological properties when subjected to varying magnetic field and thus offer superior potential for applications in smart structures requiring high bandwidth. MR sandwich structures can apply distributed control force to yield variations in stiffness and damping properties of the structure in response to the intensity of the applied magnetic field and could thus provide vibration suppression over a broad range of external excitation frequencies. This study investigates the properties of a multi-layered beam with MR fluid as a sandwich layer between the two layers of the continuous elastic structure. The governing equations of a multi-layer MR beam are formulated in the finite element form and using the Ritz method. A free oscillation experiment is performed to estimate the relationship between the magnetic field and the complex shear modulus of the MR materials in the pre-yield regime. The validity of the finite element and Ritz formulations developed is examined by comparing the results from the two models with those from the experimental investigation. Various parametric studies have been performed in terms of variations of the natural frequencies and loss factor as functions of the applied magnetic field and thickness of the MR fluid layer for various boundary conditions. The forced vibration responses of the MR sandwich beam are also evaluated under harmonic force excitation. The results illustrate that the natural frequencies could be increased by increasing the magnetic field while the magnitudes of the peak deflections could be considerably decreased, which demonstrates the vibration suppression capability of the MR sandwich beam.read more
Citations
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Dissertation
Vibration Analysis of MR Fluid Sandwich Plates and Identification of Optimal MR Fluids Treatments
TL;DR: In this article, the authors developed accurate models to predict the vibration characteristics of MR-based sandwich plates under varying magnetic field and also developed design optimization strategies to identify optimal MR fluids treatments.
Journal ArticleDOI
Multi-electrode layout design of electrorheological composite plates considering energy consumption in semi-active control
TL;DR: Numerical examples showed that optimal layouts of multi-electrodes could be obtained with different energy consumption requirements and loading conditions by using the proposed topology optimization model, and the excellent performance of vibration control could be achieved by only varying the voltage distribution of ERs.
Proceedings ArticleDOI
Comparison of transient magnetic fields for damping of magnetorheological sandwich beams
TL;DR: In this paper , the authors explore the damping of a sandwich beam filled with magnetorheological fluid subject to different time-varying magnetic fields and find that certain transient fields have marginally less damping while also conserving electromagnet power output.
Proceedings ArticleDOI
Exploring Geometric and Material Property Model Limitations of Magnetorheological Sandwich Beams
TL;DR: In this article , the authors compared the relationship between the magnetic field strength and the MR fluid's complex shear modulus (assumed linearly viscoelastic) for three different beam lengths and three distinct core membrane materials for a total of nine beams.
Journal ArticleDOI
Comparison of the application of smart electrorheological and magnetorheological fluid cores to damp sandwich panels’ vibration behavior, based on a novel higher-order shear deformation theory:
TL;DR: In this paper, the authors analyzed the vibration control properties of magnetorheological and electrorheological materials when subjected to magnetic and electric fields, and found that they show variations in their rheological properties.
References
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Journal ArticleDOI
State of the art of structural control
TL;DR: In this paper, the authors review the recent and rapid developments in semi-active structural control and its implementation in full-scale structures, and present an alternative to active and hybrid control for structural vibration reduction.
Journal ArticleDOI
The forced vibration of a three-layer, damped sandwich beam with arbitrary boundary conditions
D.J. Mead,Š. Markuš +1 more
TL;DR: In this article, the transverse displacement of a three-layer sandwich beam with a viscoelastic core is derived in terms of the transversal displacement, w, for a 3D beam.
Journal ArticleDOI
An experimental study of MR dampers for seismic protection
TL;DR: In this paper, the performance of magnetorheological dampers for seismic response reduction is examined and the results indicate that the MR damper is quite effective for structural response reduction over a wide class of seismic excitations.
Journal ArticleDOI
Theory of Vibratory Bending for Elastic and Viscoelastic Layered Finite-Length Beams
Journal ArticleDOI
MR damper and its application for semi-active control of vehicle suspension system
TL;DR: In this article, a semi-active control of vehicle suspension system with magnetorheological (MR) damper is presented and performance testing is done for this damper with INSTRON machine.
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