Journal ArticleDOI
Optimum design of a multilayer beam partially treated with magnetorheological fluid
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In this article, the modal damping characteristics of beams partially treated with magnetorheological (MR) fluid elements were studied using the finite element approach and the finite-element method.Abstract:
The modal damping characteristics of beams partially treated with magnetorheological (MR) fluid elements are studied using the modal strain energy approach and the finite element method. Different configurations of a sandwich beam partially treated with MR fluid are considered, including a beam with a cluster of MR fluid segments and a beam with arbitrarily located MR fluid segments. The significance of the location of the MR fluid segments on the modal damping factor is investigated under different end conditions. An optimization problem is formulated by combining finite element analysis with optimization algorithms based on sequential quadratic programming (SQP) and the genetic algorithm (GA) to identify optimal locations for MR fluid treatment to achieve maximum modal damping corresponding to the first five modes of flexural vibration, individually and simultaneously. The solutions of the optimization problem revealed that the GA converges to the global solutions rapidly compared to the SQP method, which in some modal configurations usually entraps in the local optimum. The results suggest that the optimal location of the MR fluid treatment is strongly related to the end conditions and also the mode of vibration. Furthermore, partial treatments with MR fluid can significantly alter the deflection modes of the beam. It has also been demonstrated that optimal locations of the MR fluid segments based on linear combination of the modal damping factors of the first five modes are identical to those obtained based on the first mode, irrespective of the end conditions. However, the optimal locations of the MR fluid segments, identified based on the logarithmic summation of the modal damping factors of the first five modes, would yield a more uniform shear energy distribution compared to that attained by considering individual modes or a linear summation of the individual modes.read more
Citations
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Journal ArticleDOI
Dynamic characteristics and control of magnetorheological/electrorheological sandwich structures: A state-of-the-art review
TL;DR: A comprehensive review of magnetorheological and electrorheological fluids in adaptive sandwich structures has been presented in this paper, mainly for the purpose of vibration control, where the authors focus on methods of characterizing the magnetors in the pre-yield region, magnetic/electric field-dependent phenomenological models describing the storage and loss moduli of fluids, experimental and analytical methods developed for vibration analysis of sandwich structures with magnetors.
Journal ArticleDOI
Dynamic characterization of a laminated composite magnetorheological fluid sandwich plate
TL;DR: In this article, the authors investigated the effect of a magnetic field on the variation of the natural frequencies and loss factors of a laminated composite magnetorheological (MR) fluid sandwich plate under various boundary conditions.
Journal ArticleDOI
Optimal vibration control of beams with total and partial MR-fluid treatments
TL;DR: In this article, a full state and limited state flexible mode shape (FMS) based controller for the suppression of transient and forced vibration of a cantilever beam with full and partial magnetorheological (MR) fluid treatments is presented.
Journal ArticleDOI
Vibration analysis of a partially treated laminated composite magnetorheological fluid sandwich plate
TL;DR: In this paper, the vibration responses of a partially treated composite magnetorheological (MR) fluid sandwich plate have been investigated and the governing differential equations of motion have been analyzed.
Journal ArticleDOI
Aeroelastic characteristics of magneto-rheological fluid sandwich beams in supersonic airflow
TL;DR: In this article, a three-layered sandwich beam with an adaptive magneto-rheological fluid (MRF) core layer is investigated, and the authors derived the instability bounds based on the classical beam theory for the face layers, magnetic field dependent complex modulus approach for viscoelastic material model and the linear first-order piston theory for aerodynamic pressure.
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