Vibration Behavior of Laminated Composite Beam Incorporated with MR (Magnetorheological) Fluid under Random Excitation, Ph.D. Dissertation Sharif University of Technology ; Behzad, Mehdi (Supervisor) ; Zabihollah, Abolghassem (Co-Supervisor)
Abstract
Laminated composite beams are being widely used in engineering applications, including aerospace and automobile where the structures are highly subjected to non-deterministic random loadings, requiring a reliable technique to ensure the stability of structure during operation. A Novel N-layer model of layerwise theory (LWT) for laminated composite beams incorporated with magnetorheological fluid (MR-laminated beams) is developed. In addition, a finite element model of tapered laminated composite beams incorporated with magnetorheological fluid (MR-tapered beam) based on layerwise theory is developed. The dynamic response of the present model for uniform and tapered beams have been compared...
Cataloging briefVibration Behavior of Laminated Composite Beam Incorporated with MR (Magnetorheological) Fluid under Random Excitation, Ph.D. Dissertation Sharif University of Technology ; Behzad, Mehdi (Supervisor) ; Zabihollah, Abolghassem (Co-Supervisor)
Abstract
Laminated composite beams are being widely used in engineering applications, including aerospace and automobile where the structures are highly subjected to non-deterministic random loadings, requiring a reliable technique to ensure the stability of structure during operation. A Novel N-layer model of layerwise theory (LWT) for laminated composite beams incorporated with magnetorheological fluid (MR-laminated beams) is developed. In addition, a finite element model of tapered laminated composite beams incorporated with magnetorheological fluid (MR-tapered beam) based on layerwise theory is developed. The dynamic response of the present model for uniform and tapered beams have been compared...
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