[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/sss.2015.16.5.853

Large amplitude free vibration analysis of laminated composite spherical shells embedded with piezoelectric layers

Singh, Vijay K. (Department of Mechanical Engineering, National Institute of Technology)
Panda, Subrata K. (Department of Mechanical Engineering, National Institute of Technology)

Publication Information

Smart Structures and Systems / v.16, no.5, 2015 , pp. 853-872 More about this Journal

Abstract

Numerical analysis of large amplitude free vibration behaviour of laminated composite spherical shell panel embedded with the piezoelectric layer is presented in this article. For the investigation purpose, a general nonlinear mathematical model has been developed using higher order shear deformation mid-plane kinematics and Green-Lagrange nonlinearity. In addition, all the nonlinear higher order terms are included in the present mathematical model to achieve any general case. The nonlinear governing equation of freely vibrated shell panel is obtained using Hamilton's principle and discretised using isoparametric finite element steps. The desired nonlinear solutions are computed numerically through a direct iterative method. The validity of present nonlinear model has been checked by comparing the responses to those available published literature. In order to examine the efficacy and applicability of the present developed model, few numerical examples are solved for different geometrical parameters (fibre orientation, thickness ratio, aspect ratio, curvature ratio, support conditions and amplitude ratio) with and/or without piezo embedded layers and discussed in details.

Keywords

nonlinear vibration; laminated composites; Green-Lagrange nonlinearity; PZT; HSDT; nonlinear finite element method; spherical shell panel;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)

Reference
Cited By KSCI

1	Arefi, M. and Khoshgoftar, M.J. (2014), "Comprehensive piezo-thermo-elastic analysis of a thick hollow spherical shell", Smart Struct. Syst., 14(2), 225-246. DOI
2	Arefi, M. and Rahimi, G.H. (2011), "Nonlinear analysis of a functionally graded square plate with two smart layers as sensor and actuator under normal pressure", Smart Struct. Syst., 8(5), 433-447. DOI
3	Benjeddou, A. (2000), "Advances in piezoelectric finite element modeling of adaptive structural elements: a survey", Comput. Struct., 76, 347-363. DOI ScienceOn
4	Balamurugan, V. and Narayanan, S. (2001), "Shell finite element for smart piezoelectric composite plate/shell structures and its application to the study of active vibration control", Finite Elem. Anal. Des., 37, 713-738. DOI
5	Balamurugan, V. and Narayanan, S. (2009), "Multilayer higher order piezlaminated smart composite shell finite element and its application to active vibration control", J. Intell. Mat. Syst. Str., 20, DOI: 10.1177/1045389x08095269. DOI
6	Benjeddou, A. Deu, J.F. and Letombe, S. (2002), "Free vibrations of simply-supported piezoelectric adaptive plates: an exact sandwich formulation", Thin Wall. Struct., 40, 573-593. DOI
7	Carrera, E., Brischetto, S. and Nali P (2011), Plates and Shells for Smart Structures: Classical and Advanced Theories for Modeling and Analysis, (1st Ed.), John Wiley & Sons Ltd, United Kingdom.
8	Cook, R.D., Malkus, D.S., Plesha, M.E. and Witt, R.J. (2009), Concepts and applications of finite element analysis, (4th Ed.), John Wiley & Sons, Singapore.
9	Chakravorty, D. Bandyopadhyay, J.N. and Sinha P.K. (1996), "Finite element free vibration analysis of doubly curved laminated composite shells", J. Sound Vib., 191(4) 491-504. DOI
10	Dash, P. and Singh, B.N. (2009), "Nonlinear free vibration of piezoelectric laminated composite plate", Finite Elem. Anal. Des., 45, 686-694. DOI
11	Heyliger, P. and Brooks, S. (1995), "Free vibration of piezoelectric laminates in cylindrical bending", Int. J. Solids Struct., 32(20), 2945-2960. DOI
12	Huang, X.L. and Shen, H.S. (2005), "Nonlinear free and forced vibration of simply supported shear deformable laminated plates with piezoelectric actuators", Int. J. Mech. Sci., 47, 187-208. DOI
13	Huang, D. and Sun, B.H. (2001), "Approximate solution on smart composite beams by using MATLAB", Compos. Struct., 54, 197-205. DOI
14	Kattimani, S.C. and Ray, M.C. (2014), "Active control of large amplitude vibrations of smart magneto-electro-elastic doubly curved shells", Int. J. Mech. Mater. Des., DOI: 10.1007/s10999-014-9252-3. DOI
15	Kerur, S.B. and Ghosh A. (2011), "Active control of geometrically non-linear transient response of smart laminated composite plate integrated with AFC actuator and PVDF sensor", J. Intell. Mat. Syst. Str., 22, 1149-1160. DOI
16	Kulkarni S.A. and Bajoria K.M. (2007), "Large deformation analysis of piezolaminated smart structures using higher-order shear deformation theory", Smart Mater. Struct., 16, 1506-1516. DOI
17	Lee, S.J. and Reddy, J.N. (2004), "Vibration suppression of laminated shell structures investigated using higher order shear deformation theory", Smart Mater. Struct., 13, 1176-1119. DOI
18	Lee, S.J., Reddy, J.N. and Rostam-Abadi, F. (2006), "Nonlinear finite element analysis of laminated composite shells with actuating layers", Finite Elem. Anal. Des., 43, 1-21. DOI
19	Nanda, N. (2010), "Non-linear free and forced vibrations of piezoelectric laminated shells in thermal environments", The IES Journal Part A: Civil & Structural Engineering, 3(3), 147-160. DOI
20	Rafiee, M., Mohammadi, M., Aragh, B.S. and Yaghoobi, H. (2013), "Nonlinear free and forced thermo-electro-aero-elastic vibration and dynamic response of piezoelectric functionally graded laminated composite shells Part II: Numerical results", Compos. Struct., 103, 188-196. DOI
21	Ramirez, F., Heyliger, P.R. and Pan, E. (2006), "Free vibration response of two-dimensional magneto-electro-elastic laminated plates", J. Sound Vib., 292, 626-644. DOI
22	Reddy, J.N. (1999), "On laminated composite plates with integrated sensors and actuators", Eng. Struct., 21, 568-593. DOI
23	Reddy, J.N. (2004), "Mechanics of laminated composite plates and shells: Theory and Analysis", (2nd Edition), CRC Press, Boca Raton, Florida, FL, USA.
24	Saravanos, D.A., Heyliger. P.R., and Hopkins, D.A. (1997), "Layerwise mechanics and finite element for the dynamic analysis of piezoelectric composite plates", Int. J. Solids Struct., 34(3), 359-378. DOI
25	Sarangi, S.K. and Ray, M.C. (2011), "Active damping of geometrically nonlinear vibrations of doubly curved laminated composite shells", Compos. Struct., 93, 3216-3228. DOI
26	Sarangi, S.K. and Ray, M.C. (2010), "Smart damping of geometrically nonlinear vibrations of laminated composite beams using vertically reinforced 1-3 piezoelectric composites", Smart Mater. Struct., 19(075020), 1-14.
27	Singh, V.K. and Panda S.K. (2014), "Nonlinear free vibration analysis of single/doubly curved composite shallow shell panels", Thin Wall. Struct., 85, 341-349. DOI
28	Xu, K., Noor, A.K. and Tang, Y.Y. (1997), "Three-dimensional solutions for free vibrations of initially-stressed thermoelectroelastic multilayered plates", Comput. Method. Appl. M., 141, 125-139. DOI

4	Ali Ghorbanpour Arani. (2016) Smart Structures and Systems Nonlinear vibration analysis of piezoelectric plates reinforced with carbon nanotubes using DQM / 18 (4) , 787
	Wei Sun. (2017) Aerospace Science and Technology Free vibration analysis of a hard-coating cantilever cylindrical shell with elastic constraints / 63 , 232
	M. Mohammadzadeh-Keleshteri. (2017) Composite Structures Geometrical nonlinear free vibration responses of FG-CNT reinforced composite annular sector plates integrated with piezoelectric layers / 171 , 100
1537-6532	(2021) Mechanics of Advanced Materials and Structures Free vibration analysis of combined composite laminated cylindrical and spherical shells with arbitrary boundary conditions / (1537-6532) , 1
3	(2015) Smart structures and systems Thermal buckling analysis of cross-ply laminated plates using a simplified HSDT / 19 (3) , 289
4	(2017) Structural engineering and mechanics : An international journal A novel and simple HSDT for thermal buckling response of functionally graded sandwich plates / 62 (4) , 401
4	(2017) Smart structures and systems Free vibration of functionally graded plates resting on elastic foundations based on quasi-3D hybrid-type higher order shear deformation theory / 20 (4) , 509
6	(2015) Steel & Composite structures : an international journal An original HSDT for free vibration analysis of functionally graded plates / 25 (6) , 735
None	(2015) Shock and vibration Free Vibration Analysis of Functionally Graded Spherical Torus Structure with Uniform Variable Thickness along Axial Direction / 2019 (None) , 1
7	(2019) Microsystem technologies : sensors, actuators, systems integration Chaotic dynamics of a non-autonomous nonlinear system for a smart composite shell subjected to the hygro-thermal environment / 25 (7) , 2587
None	(2015) Shock and vibration Free Vibration Characteristics of Moderately Thick Spherical Shell with General Boundary Conditions Based on Ritz Method / 2020 (None) , 1
5	(2015) Steel & Composite structures : an international journal The effect of voltage and nanoparticles on the vibration of sandwich nanocomposite smart plates / 34 (5) , 733
3	(2015) Smart structures and systems Experimental investigation of self-healing concrete after crack using nano-capsules including polymeric shell and nanoparticles core / 25 (3) , 337
1	(2020) Steel & Composite structures : an international journal Buckling response of smart plates reinforced by nanoparticles utilizing analytical method / 35 (1) , 1
5	(2020) Computers & concrete A mathematical approach for the effect of the rotation on thermal stresses in the piezo-electric homogeneous material / 25 (5) , 471
5	(2015) Structural engineering and mechanics : An international journal Response of angle-ply laminated cylindrical shells with surface-bonded piezoelectric layers / 76 (5) , 599
4	(2021) Advances in concrete construction An analytical solution for equations and the dynamical behavior of the orthotropic elastic material / 11 (4) , 315
2	(2015) Steel & Composite structures : an international journal On the free vibration response of laminated composite plates via FEM / 39 (2) , 149
5	(2015) Structural engineering and mechanics : An international journal Mathematical approach for the effect of the rotation, the magnetic field and the initial stress in the non-homogeneous an elastic hollow cylinder / 79 (5) , 593