[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/sss.2017.19.6.695

Electro-magneto-elastic analysis of a three-layer curved beam

Arefi, Mohammad (Department of Solid Mechanics, Faculty of Mechanical Engineering, University of Kashan)
Zenkour, Ashraf M. (Department of Mathematics, Faculty of Science, King Abdulaziz University)

Publication Information

Smart Structures and Systems / v.19, no.6, 2017 , pp. 695-703 More about this Journal

Abstract

In this paper, based on first-order shear deformation theory, the governing equations of motion for a sandwich curved beam including an elastic core and two piezo-magnetic face-sheets are presented. The curved beam model is resting on Pasternak's foundation and subjected to applied electric and magnetic potentials on the piezo-magnetic face-sheets and transverse loading. The five equations of motion are analytically solved and the bending and vibration results are obtained. The influence of important parameters of the model such as direct and shear parameters of foundation and applied electric and magnetic potentials are studied on the electro-mechanical responses of the problem. A comparison with literatures was performed to validate our formulation and results.

Keywords

three-layer curved beam; piezo-magnetic face-sheets; Pasternak's foundation; first-order shear deformation theory;

Citations & Related Records

Times Cited By KSCI : 3 (Citation Analysis)

Reference
Cited By KSCI

1	Hosseini, S.A.H. and Rahmani, O. (2016a), "Free vibration of shallow and deep curved FG nanobeam via nonlocal Timoshenko curved beam model", Appl. Phys. A, 122,169.
2	Hosseini, S.A.H. and Rahmani, O. (2016b), "Thermomechanical vibration of curved functionally graded nanobeam based on nonlocal elasticity", J. Therm. Stresses, 39(10), 1252-1267. DOI
3	Hou, P.F. and Leung, A.Y.T. (2004), "The transient responses of magneto-electro-elastic hollow cylinders", Smart. Mater. Struct., 13, 762-776. DOI
4	Kananipour, H., Ahmadi, M. and Chavoshi, H., (2014), "Application of nonlocal elasticity and DQM to dynamic analysis of curved nanobeams", Lat. Amer. J. Solids. Struct., 11(5), 848-853. DOI
5	Koutsawa, Y. and Daya, E.M. (2007), "Static and free vibration analysis of laminated glass beam on viscoelastic supports", Int. J. Solids. Struct., 44, 8735-8750. DOI
6	Kuang, Y.D., Li, G.Q., Chen, C.Y. and Min, Q. (2007), "The static responses and displacement control of circular curved beams with piezoelectric actuators", Smart. Mater. Struct., 16, 1016-1024. DOI
7	Shi, Z.F. (2005), "Bending behavior of piezoelectric curved actuator", Smart. Mater. Struct., 14, 835-842. DOI
8	Shi, Z.F. and Zhang, T. (2008), "Bending analysis of a piezoelectric curved actuator with a generally graded property for the piezoelectric parameter", Smart. Mater. Struct., 17(4): 045018 (7pp). DOI
9	Arefi, M. (2014), "A complete set of equations for piezomagnetoelastic analysis of a functionally graded thick shell of revolution", Lat. Amer. J. Solids. Struct., 11(11), 2073-2092. DOI
10	Arefi, M. and Khoshgoftar, M.J. (2014), "Comprehensive piezothermo-elastic analysis of a thick hollow spherical shell", Smart. Struct. Syst., 14(2), 225-246. DOI
11	Arefi, M. (2015), "Elastic solution of a curved beam made of functionally graded materials with different cross sections", Steel. Compos. Struct., 18(3), 659-672. DOI
12	Arefi, M. and Zenkour, A.M. (2016a), "Free vibration, wave propagation and tension analyses of a sandwich micro/nano rod subjected to electric potential using strain gradient theory", Mater. Res. Express., 3(11), 115704. DOI
13	Arefi, M. and Zenkour A.M. (2016b), "Employing sinusoidal shear deformation plate theory for transient analysis of three layers sandwich nanoplate integrated with piezo-magnetic facesheets", Smart. Mater. Struct., 25(11), 115040. DOI
14	Arefi, M. and Zenkour A.M. (2016c), "A simplified shear and normal deformations nonlocal theory for bending of functionally graded piezomagnetic sandwich nanobeams in magneto-thermo-electric environment", J. Sandw. Struct. Mater., 18(5), 624-651. DOI
15	Sun, D.C. and Tong, L. (2001), "Sensor/actuator equations for curved piezoelectric fibers and vibration control of composite beams using fiber modal actuators/sensors", J. Sound. Vib., 241(2), 297-314. DOI
16	Sun, D. and Tong, L. (2002), "Modeling and analysis of curved beams with debonded piezoelectric sensor/actuator patches", Int. J. Mech. Sci., 44, 1755-1777. DOI
17	Susanto, K. (2009), "Vibration analysis of piezoelectric laminated slightly curved beams using distributed transfer function method", Int. J. Solids. Struct., 46, 1564-1573. DOI
18	Yan, Z. and Jiang, L. (2011), "Electromechanical response of a curved piezoelectric nanobeam with the consideration of surface effects", J. Phys. D: Appl. Phys., 44, 365301 (8pp). DOI
19	Zenkour, A.M. and Arefi, M. (2017a), "Nonlocal transient electrothermomechanical vibration and bending analysis of a functionally graded piezoelectric single-layered nanosheet rest on visco-Pasternak foundation", J. Therm. Stresses., 40(2), 167-184. DOI
20	Zhou, Y., Nyberg, T.R., Xiong, G., Zhou, H. and Li, S. (2017), "Precise deflection analysis of laminated piezoelectric curved beam", J. Intel. Mat. Syst. Str., In Press.
21	Zhou, Y., Dong, Y. and Li, S. (2010), "Analysis of a curved beam MEMS piezoelectric vibration energy harvester", Adv. Mater. Res., 139-141, 1578-1581. DOI
22	Arefi, M. and Zenkour, A.M. (2017b), "Vibration and bending analysis of a sandwich microbeam with two integrated piezomagnetic face-sheets", Compos. Struct. 159, 479-490. DOI
23	Arefi, M. and Zenkour A.M. (2016d), "Nonlocal electro-thermomechanical analysis of a sandwich nanoplate containing a Kelvin-Voigt viscoelastic nanoplate and two piezoelectric layers", Acta Mech., 228(2), 475-493.
24	Arefi, M. and Rahimi, G.H. (2014), "Application of shear deformation theory for two dimensional electro-elastic analysis of a FGP cylinder", Smart. Struct. Syst., 13(1), 1-24. DOI
25	Arefi, M. and Zenkour, A.M. (2017a), "Thermo-electromechanical bending behavior of sandwich nanoplate integrated with piezoelectric face-sheets based on trigonometric plate theory", Compos. Struct.,162, 108-122. DOI
26	Arefi, M. and Zenkour, A.M. (2017c), "Size-dependent vibration and bending analyses of the piezomagnetic three-layer nanobeams", Appl. Phys. A., 123(3), 202.
27	Arefi, M. and Zenkour, A.M. (2017d), "Transient analysis of a three-layer microbeam subjected to electric potential", Int. J. Smart. Nano. Mater., 8(1), 20-40. DOI
28	Arefi, M. and Zenkour, A.M. (2017e), "Wave propagation analysis of a functionally graded magneto-electro-elastic nanobeam rest on Visco-Pasternak foundation", Mech. Res. Commun., 79, 51-62. DOI
29	Arslan, E. and Usta, R. (2014), "Mechanical and electrical fields of piezoelectric curved sensors", Arch. Mech., 66(5), 329-342.