Higher-Order Stability Analysis of Imperfect Laminated Piezo-Composite Plates on Elastic Foundations Under Electro-Thermo-Mechanical Loads
Subject Areas : Engineering
1 - Faculty of New Sciences and Technologies, University of Tehran, Tehran, Iran
2 - Faculty of New Sciences and Technologies, University of Tehran, Tehran, Iran
Keywords:
Abstract :
[1] Raju K.K., Rao G.V., 1988, Thermal post-buckling of a square plate resting on an elastic foundation by finite element method, Computers & Structures 28: 195-199.
[2] Gunda J.B., 2013, Thermal post-buckling analysis of square plates resting on elastic foundation: A simple closed-form solutions, Applied Mathematical Modelling 37: 5536-5548.
[3] De Holanda A., Gonçalves P., 2003, Postbuckling analysis of plates resting on a tensionless elastic foundation, Journal of Engineering Mechanics 129: 438-448.
[4] Shen H.-S., 2000, Postbuckling of shear deformable laminated plates under biaxial compression and lateral pressure and resting on elastic foundations, International Journal of Mechanical Sciences 42: 1171-1195.
[5] Shen H.-S., 2000, Thermomechanical postbuckling of imperfect shear deformable laminated plates on elastic foundations, Computer Methods in Applied Mechanics 189: 761-784.
[6] Shen H.-S., 2000, Postbuckling analysis of shear-deformable composite laminated plates on two-parameter elastic foundations, Mechanics of Composite Materials and Structures 7: 249-268.
[7] Shen H.-S., Li Q., 2004, Postbuckling of shear deformable laminated plates resting on a tensionless elastic foundation subjected to mechanical or thermal loading, International Journal of Solids and Structures 41: 4769-4785.
[8] Yang J., Zhang L., 2000, Nonlinear analysis of imperfect laminated thin plates under transverse and in-plane loads and resting on an elastic foundation by a semi-analytical approach, Thin-Walled Structures 38: 195-227.
[9] Singh B., Lal A., Kumar R., 2009, Post buckling response of laminated composite plate on elastic foundation with random system properties, Communications in Nonlinear Science and Numerical Simulation 14: 284-300.
[10] Singh B., Lal A., 2010, Stochastic analysis of laminated composite plates on elastic foundation: The cases of post-buckling behavior and nonlinear free vibration, International Journal of Pressure Vessels and Piping 87: 559-574.
[11] Pandey R., Shukla K., Jain A., 2009, Thermoelastic stability analysis of laminated composite plates: An analytical approach, Communications in Nonlinear Science and Numerical Simulation 14: 1679-1699.
[12] Librescu L., Stein M., 1991, A geometrically nonlinear theory of transversely isotropic laminated composite plates and its use in the post-buckling analysis, Thin-Walled Structures 11: 177-201.
[13] Noor A.K., Peters J.M.,1992, Postbuckling of multilayered composite plates subjected to combined axial and thermal loads, Finite Elements in Analysis and Design 11: 91-104.
[14] Sundaresan P., Singh G., Rao G.V., 1996, Buckling and post-buckling analysis of moderately thick laminated rectangular plates, Computers & Structures 61: 79-86.
[15] Argyris J., Tenek L.,1995, Postbuckling of composite laminates under compressive load and temperature, Computer Methods in Applied Mechanics 128: 49-80.
[16] Han S.-C., Lee S.-Y., Rus G.,2006, Postbuckling analysis of laminated composite plates subjected to the combination of in-plane shear, compression and lateral loading, International Journal of Solids and Structures 43: 5713-5735.
[17] Oh I.-K., Han J.-H., Lee I., 2000, Postbuckling and vibration characteristics of piezolaminated composite plate subject to thermo-piezoelectric loads, Journal of Sound and Vibration 233: 19-40.
[18] Shen H.-S.,2001, Thermal postbuckling of shear-deformable laminated plates with piezoelectric actuators, Composites Science and Technology 61: 1931-1943.
[19] Shen H.-S., 2001, Postbuckling of shear deformable laminated plates with piezoelectric actuators under complex loading conditions, International Journal of Solids and Structures 38: 7703-7721.
[20] Varelis D., Saravanos D.A., 2004, Coupled buckling and postbuckling analysis of active laminated piezoelectric composite plates, International Journal of Solids and Structures 41: 1519-1538.
[21] Bohlooly M., Mirzavand B., 2015, Closed form solutions for buckling and postbuckling analysis of imperfect laminated composite plates with piezoelectric actuators, Composites Part B: Engineering 72: 21-29.
[22] Abdollahian M., Arani A.G., Barzoki A.M., Kolahchi R., Loghman A., 2013, Non-local wave propagation in embedded armchair twbnnts conveying viscous fluid using dqm, Physica B: Condensed Matter 418: 1-15.
[23] Arani A.G., Abdollahian M., Kolahchi R., Rahmati A., 2013, Electro-thermo-torsional buckling of an embedded armchair dwbnnt using nonlocal shear deformable shell model, Composites Part B: Engineering 51: 291-299.
[24] Arani A.G., Abdollahian M., Jalaei M., 2015, Vibration of bioliquid-filled microtubules embedded in cytoplasm including surface effects using modified couple stress theory, Journal of Theoretical Biology 367: 29-38.
[25] Arani A.G., Abdollahian M., Kolahchi R., 2015, Nonlinear vibration of embedded smart composite microtube conveying fluid based on modified couple stress theory, Polymer Composites 36: 1314-1324.
[26] Bohlooly M., Mirzavand B., 2018, Postbuckling and deflection response of imperfect piezo-composite plates resting on elastic foundations under in-plane and lateral compression and electro-thermal loading, Mechanics of Advanced Materials Structures 25: 192-201.
[27] Mirzavand B., Bohlooly M., 2015, Thermal buckling of piezolaminated plates subjected to different loading conditions, Journal of Thermal Stresses 38: 1138-1162.
[28] Kiani Y., Eslami M., 2012, Thermal buckling and post-buckling response of imperfect temperature-dependent sandwich fgm plates resting on elastic foundation, Archive of Applied Mechanics 82: 891-905.
[29] Duc N.D., Van Tung H., 2011, Mechanical and thermal postbuckling of higher order shear deformable functionally graded plates on elastic foundations, Composite Structures 93: 2874-2881.
[30] Malekzadeh K., Khalili S., Abbaspour P., 2010, Vibration of non-ideal simply supported laminated plate on an elastic foundation subjected to in-plane stresses, Composite Structures 92: 1478-1484.
[31] Joubaneh E.F., Mojahedin A., Khorshidvand A., Jabbari M., 2014, Thermal buckling analysis of porous circular plate with piezoelectric sensor-actuator layers under uniform thermal load, Journal of Sandwich Structures & Materials 17: 3-25.
[32] Reddy J.N., 2004, Mechanics of Laminated Composite Plates and Shells: Theory and Analysis, CRC press.
[33] Duc N.D., Cong P.H., 2013, Nonlinear postbuckling of symmetric s-fgm plates resting on elastic foundations using higher order shear deformation plate theory in thermal environments, Composite Structures 100: 566-574.
[34] Duc N.D., Cong P.H., 2014, Nonlinear postbuckling of an eccentrically stiffened thin fgm plate resting on elastic foundations in thermal environments, Thin-Walled Structures 75: 103-112.
[35] Van Tung H., Duc N.D., 2010, Nonlinear analysis of stability for functionally graded plates under mechanical and thermal loads, Composite Structures 92: 1184-1191.
[36] Wang Z.-X., Shen H.-S., 2011, Nonlinear analysis of sandwich plates with fgm face sheets resting on elastic foundations, Composite Structures 93: 2521-2532.
[37] Ninh D.G., Bich D.H., 2016, Nonlinear torsional buckling and post-buckling of eccentrically stiffened ceramic functionally graded material metal layer cylindrical shell surrounded by elastic foundation subjected to thermo-mechanical load, Journal of Sandwich Structures & Materials 18: 712-738.
[38] Bohlooly M., Mirzavand B., 2017, Thermomechanical buckling of hybrid cross-ply laminated rectangular plates, Advanced Composite Materials 26: 407-426.
[39] Xiang Y., Kitipornchai S., Liew K., 1996, Buckling and vibration of thick laminates on pasternak foundations, Journal of Engineering Mechanics 122: 54-63.
[40] Shen H.-S., 2000, Nonlinear analysis of simply supported reissner–mindlin plates subjected to lateral pressure and thermal loading and resting on two-parameter elastic foundations, Engineering Structures 22: 1481-1493.
[41] Boley B.A., Weiner J.H., 2012, Theory of Thermal Stresses, Courier Dover Publications.
[42] Chandrashekhara K., 1992, Thermal buckling of laminated plates using a shear flexible finite element, Finite Elements in Analysis and Design 12: 51-61.
[43] Ganapathi M., Touratier M., 1997, A study on thermal postbuckling behaviour of laminated composite plates using a shear-flexible finite element, Finite Elements in Analysis and Design 28: 115-135.
[44] Shen H.-S., 1997, Thermal post-buckling analysis of imperfect shear-deformable plates on two-parameter elastic foundations, Composite Structures 63: 1187-1193.
[45] Mirzavand B., Eslami M., Reddy J., 2013, Dynamic thermal postbuckling analysis of shear deformable piezoelectric-fgm cylindrical shells, Journal of Thermal Stresses 36: 189-206.