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Investigation of moving load-induced vibrations in layered functionally graded Terfenol-D beams: a differential quadrature method and analytical approach

Investigation of moving load-induced vibrations in layered functionally graded Terfenol-D beams: a differential quadrature method and analytical approach
Investigation of moving load-induced vibrations in layered functionally graded Terfenol-D beams: a differential quadrature method and analytical approach
The paper investigates the potential of the full-sinusoidal Fourier series as a solution form for the deflection of layered functionally graded beams associated with smart actuators, drawing on the fundamental principles of classical Fourier series theory. The current method simplifies the difficult beam problem to a set of linear algebraic equations by using the Duhamel integration technique and the orthogonality of the trial function. The study takes into account generalized boundary conditions and moving forces, which are seldom discussed in previous research. Under the action of a moving load, the boundary value problem for a functionally graded beam integrated with Terfenol-D is efficiently addressed using the approach of combined differential and integral quadrature. The generalized boundary conditions may be easily achieved by adjusting the stiffness of the restraining springs. The significant agreement between the differential quadrature solution and the Fourier series solution underlines the efficiency and accuracy of both methods. Furthermore, the influences of various crucial physical characteristics on the natural frequencies and the essential flow velocities are explored, including boundary stiffness, foundation parameters, and geometric parameters.
1539-7734
10256-10272
Patil, Mukund A.
f8953f74-3eff-42ce-82bf-8154bbec6aed
Saraf, Suvarna
bb0f0146-3adb-4f27-9331-44b29b41abb8
Kadoli, Ravikiran
798becec-e1ad-453d-9b40-eded19e09eab
Naskar, Susmita
5f787953-b062-4774-a28b-473bd19254b1
Patil, Mukund A.
f8953f74-3eff-42ce-82bf-8154bbec6aed
Saraf, Suvarna
bb0f0146-3adb-4f27-9331-44b29b41abb8
Kadoli, Ravikiran
798becec-e1ad-453d-9b40-eded19e09eab
Naskar, Susmita
5f787953-b062-4774-a28b-473bd19254b1

Patil, Mukund A., Saraf, Suvarna, Kadoli, Ravikiran and Naskar, Susmita (2024) Investigation of moving load-induced vibrations in layered functionally graded Terfenol-D beams: a differential quadrature method and analytical approach. Mechanics Based Design of Structures and Machines, 52 (12), 10256-10272. (doi:10.1080/15397734.2024.2354525).

Record type: Article

Abstract

The paper investigates the potential of the full-sinusoidal Fourier series as a solution form for the deflection of layered functionally graded beams associated with smart actuators, drawing on the fundamental principles of classical Fourier series theory. The current method simplifies the difficult beam problem to a set of linear algebraic equations by using the Duhamel integration technique and the orthogonality of the trial function. The study takes into account generalized boundary conditions and moving forces, which are seldom discussed in previous research. Under the action of a moving load, the boundary value problem for a functionally graded beam integrated with Terfenol-D is efficiently addressed using the approach of combined differential and integral quadrature. The generalized boundary conditions may be easily achieved by adjusting the stiffness of the restraining springs. The significant agreement between the differential quadrature solution and the Fourier series solution underlines the efficiency and accuracy of both methods. Furthermore, the influences of various crucial physical characteristics on the natural frequencies and the essential flow velocities are explored, including boundary stiffness, foundation parameters, and geometric parameters.

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e-pub ahead of print date: 23 May 2024
Published date: 23 May 2024

Identifiers

Local EPrints ID: 491660
URI: http://eprints.soton.ac.uk/id/eprint/491660
DOI: doi:10.1080/15397734.2024.2354525
ISSN: 1539-7734
PURE UUID: e3292ba1-ccf8-4987-be4e-65ee290cf503
ORCID for Susmita Naskar: ORCID iD orcid.org/0000-0003-3294-8333

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Date deposited: 03 Jul 2024 09:43
Last modified: 09 Oct 2025 02:10

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Contributors

Author: Mukund A. Patil
Author: Suvarna Saraf
Author: Ravikiran Kadoli
Author: Susmita Naskar ORCID iD

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