Frequency Analysis of FG Sandwich Rectangular Plates with a Four-Parameter Power-Law Distribution
Subject Areas : EngineeringS Kamarian 1 , M.H Yas 2 , A Pourasghar 3
1 - Young Researchers and Elite Club, Kermanshah Branch, Islamic Azad University
2 - Department of Mechanical Engineering, Razi University, Kermanshah
3 - Young Researchers and Elite Club, Central Tehran Branch, Islamic Azad University
Keywords:
Abstract :
[1] Tornabene F., Viola E., 2009, Free vibration analysis of four-parameter functionally graded parabolic panels and shells of revolution, European Journal of Mechanics - A/Solids 28:991-1013.
[2] Sobhani B., Yas M.H., 2010, Three-dimensional analysis of thermal stresses in four-parameter continuous grading fiber reinforced cylindrical panels, International Journal of Mechanical Sciences 52:1047-1063.
[3] Sobhani B., Yas M.H., 2010, Static and free vibration analyses of continuously graded fiber-reinforced cylindrical shells using generalized power-law distribution, Acta Mechanica 215:155-173.
[4] Pourasghar A., Yas M.H., Kamarian S., 2013, Local aggregation effect of CNT on the vibrational behavior of four-parameter continuous grading nanotube reinforced cylindrical panels, Polymer Composites 34(5):707-721.
[5] Malekzadeh P., 2008, Three-dimensional free vibrations analysis of thick functionally graded plates on elastic foundations, Composite Structures 89(3):367-373.
[6] Yas M.H., Sobhani B., 2010, Free vibration analysis of continuous grading fiber reinforced plates on elastic foundation, International Journal of Engineering Science 48:1881-1895.
[7] Matsunaga H., 2008, Free vibration and stability of functionally graded plates according to a 2D higher-order deformation theory, Composite Structures 82:499-512.
[8] Li Q, Iu VP, Kou KP, 2008, Three-dimensional vibration analysis of functionally graded material sandwich plates, The Journal of Sound and Vibration 311(1–2):498–515.
[9] Zenkour AM., 2005, A comprehensive analysis of functionally graded sandwich plates: Part1- deflection and stresses. International Journal of Solids and Structures 42:5224–5242.
[10] Zenkour AM., 2005, A comprehensive analysis of functionally graded sandwich plates: Part2- buckling and free vibration deflection and stresses, International Journal of Solids and Structures 42:5243–5258.
[11] Khalili S.M.R., Mohammadi Y., 2012, Free vibration analysis of sandwich plates with functionally graded face sheets and temperature dependent material properties: A new approach, European Journal of Mechanics - A/Solids 35:61–74.
[12] Natarajan S., Manickam G., 2012, Bending and vibration of functionally graded material sandwich plates using an accurate theory, Finite Elements in Analysis and Design 57:32–42.
[13] Neves A.M.A., Ferreira A.J.M., Carrera E., Cinefra M., Roque C.M.C., Jorge R.M.N., Soares C.M.M., 2013, Static free vibration and buckling analysis of isotropic and sandwich functionally graded plates using a quasi-3D higher-order shear deformation theory and a meshless technique, Composites Part B: Engineering 44(1):657–674.
[14] Sobhy M., 2012, Buckling and free vibration of exponentially graded sandwich plates resting on elastic foundations under various boundary conditions, Composite Structures 99:76-87.
[15] Song X., Gui-wen K., Ming-sui Y., Yan Z., 2013, Natural frequencies of sandwich plate with functionally graded face and homogeneous core, Composite Structures 96:226–231.
[16] Bellman R, Kashef B.G., Casti J., 1972, Differential Quadrature: a technique for a rapid solution of non linear partial differential equations, Journal of Computational Physics 10:40–52.
[17] Shu C., 2000, Differential Quadrature and Its Application in Engineering, Berlin, Springer.
[18] Kamarian S., Yas M.H., Pourasghar A., 2012, Free Vibrations of Continuous Grading Fiber Orientation Beams on Variable Elastic Foundations, Journal of Solid Mechanic 4(1): 75-83.
[19] Bert CW., Malik M., 1996, Differential quadrature method in computational mechanics, a review, Applied Mechanics Reviews 49:1-28.
[20] Yas M. H., Kamarian S., Eskandari J., Pourasghar A., 2011, Optimization of functionally graded beams resting on elastic foundations, Journal of Solid Mechanic 3(4):365-378.
[21] Yas M.H., Kamarian S., Pourasghar A.,2012, Application of imperialist competitive algorithm a and neural networks to optimize the volume fraction of three-parameter functionally graded beams, Journal of Experimental & Theoretical Artificial Intelligence , doi:10.1080/0952813X.2013.782346.
