This research is focused on the buckling stability of a hybrid Glass/Carbon composite laminated plates, we founded the present investigation on a simpler and efficient refined high order analytical model for predicting the critical mechanical buckling loads, the material properties considered in this study are Carbon’s and Glass’s, furthermore we used a mathematical approach to predict the performance of the mixture of two types of fibers in the same layer of the laminated composite plate. In view of the fact that everyone of these kinds of fibers excel singularly at least in one mechanical property, the mixture is undeniably to provide the best qualities and eliminate any possible deficiencies in these materials.

Huu-Tai T., Dong-Ho C., A simple first-order shear deformation theory for laminated composite plates, Composite Structures, Vol. 106, pp. 754-763, 2013.

Ferreira A.J.M., Castro L.M.S., Bertoluzza S., A high order collocation method for the static and vibration analysis of composite plates using a first-order theory, Composite Structures, Vol. 89(3), pp. 424-432, 2009.

Srinivas, S., Rao A.K., Bending, vibration and buckling of simply supported thick orthotropic rectangular plates and laminates, Int. J. of Solids and Structures, Vol. 6, pp. 1463-1481, 1970.

Whitney, J.M., Sun, C.T., A higher-order theory for extensional motion of laminated composites, Journal of Sound and Vibration, Vol. 30, pp. 85-97, 1973.

Levinson, M., An accurate, simple theory of the statics and dynamics of elastic plates, Mech Res Commun, Vol. 7(6), pp. 343-50. 1980

Bhimaraddi, A., Stevens, L.K., A higher order theory for free vibration of orthotropic, homogeneous and laminated rectangular plates, J Appl Mech, Trans ASME, Vol. 51(1), pp. 195-198, 1984.

Reddy, J.N., A simple higher-order theory for laminated composite plates, J Appl Mech Trans ASME, 51, pp. 745-752, 1986.

Ren, J.G., A new theory of laminated plate, Compos Sci Technol, Vol. 26, pp. 225-239, 1986.

Zenkour, A.M., Generalized shear deformation theory for bending analysis of functionally graded plates, Appl. Math. Model., Vol. 30(1), pp. 67-84, 2006

Adim, B., Daouadji, H. T., Abbes, B., Buckling analysis of antisymmetric cross-ply laminated composite plates under different boundary conditions, International Applied Mechanics, Vol. 52(6), pp.661-676, 2016.

Daouadji, H. T., Adim, B., Benferhat, R., Bending analysis of an imperfect FGM plates under hygro-thermo-mechanical loading with analytical validation, Adv in Mat Res, Vol. 5(1), pp. 35-53, 2016.

Thai, H.T., Kim, S.E., A simple quasi-3D sinusoidal shear deformation theory for functionally graded plates, Compos. Struct., Vol. 99, pp. 172-180, 2013.

Heitz, T., Teodorescu-Draghicescu, H., Lache, S., Chiru, A., Vlase, S., Calin, M.R., Advanced T700/XB3585 UD carbon fibers-reinforced composite, Journal of Optoelectronics and Advanced Materials, Vol. 16(5-6), pp. 568-573, 2014.

Vasiliev, V.V., Morozov, E.V., Mechanics and Analysis of Composite Materials, Elsevier Science, Oxford, 2001.

Noor, A.K., Stability of multilayered composite plate, Fibre Sci Technol, Vol. 8, pp. 81-89, 1975.

Ren, J.G., Bending, vibration and buckling of laminated plates, In: Cheremisinoff NP, editor. Handbook of ceramics and composites, vol. 1, pp. 413-450. Marcel Dekker; New York, 1990.

Whitney, J.M., Pagano, N.J., Shear deformation in heterogeneous anisotropic plates, J Appl Mech, Trans ASME, Vol. 37(4), pp. 1031-1036, 1970.

Reddy, J.N., A simple higher-order theory for laminated composite plates, Journal of Applied Mechanics, Vol. 51, pp. 745-752, 1984.

Berthelot, J.M., Matériaux Composites : Comportement Mécanique et Analyse des Structures, Lavoisier, Paris, France, 2012.