Journal of Engineering and Applied Sciences
Year:
2014
Volume:
9
Issue:
10
Page No.
378 - 388
References
Belytschko, T., Y. Krongauz, D. Organ, M. Fleming and P. Krysl, 1996. Meshless methods: An overview and recent developments. Comput. Methods Applied Mech. Eng., 139: 3-47.
CrossRef | Direct Link | Belytschko, T., Y. Krongauz, M. Fleming, D. Organ and W.K.S. Liu, 1996. Smoothing and accelerated computations in the element free Galerkin method. J. Computat. Applied Math., 74: 111-126.
CrossRef | Direct Link | Breitkopf, P., A. Rassineux, G. Touzot and P. Villon, 2000. Explicit form and efficient computation of MLS shape functions and their derivatives. Int. J. Numer. Methods Eng., 48: 451-466.
CrossRef | Direct Link | Bui, T.Q., M.N. Nguyen and C. Zhang, 2011. Buckling analysis of Reissner-Mindlin plates subjected to in-plane edge loads using a shear-locking-free and meshfree method. Eng. Anal. Boundary Elements, 35: 1038-1053.
CrossRef | Direct Link | Civalek, O., 2007. Three-dimensional vibration, buckling and bending analyses of thick rectangular plates based on discrete singular convolution method. Int. J. Mech. Sci., 49: 752-765.
CrossRef | Direct Link | Civalek, O., 2009. A four-node discrete singular convolution for geometric transformation and its application to numerical solution of vibration problem of arbitrary straight-sided quadrilateral plates. Applied Math. Modell., 33: 300-314.
CrossRef | Direct Link | Gupta, U.S., S.K. Jain and D. Jain, 1995. Method of collocation by derivatives in the study of axisymmetric vibrations of circular plates. Comput. Struct., 57: 841-845.
CrossRef | Direct Link | Hrabok, M.M. and T.M. Hrudey, 1984. A review and catalogue of plate bending finite elements. Comput. Struct., 19: 479-495.
Direct Link | Huang, Y.Q. and Q.S. Li, 2004. Bending and buckling analysis of antisymmetric laminates using the moving least square differential quadrature method. Comput. Meth. Applied Mech. Eng., 193: 3471-3492.
CrossRef | Direct Link | Jafari, A.A. and S.A. Eftekhari, 2011. An efficient mixed methodology for free vibration and buckling analysis of orthotropic rectangular plates. Applied Math. Comput., 218: 2670-2692.
CrossRef | Direct Link | Lancaster, P. and K. Salkauskas, 1981. Surfaces generated by moving least squares methods. Math. Comput., 37: 141-158.
CrossRef | Direct Link | Lanhe, W., W. Hongjun and W. Daobin, 2007. Dynamic stability analysis of FGM plates by the moving least squares differential quadrature method. Compos. Struct., 77: 383-394.
CrossRef | Direct Link | Liew, K.M. and J.B. Han, 1997. Bending analysis of simply supported shear deformable skew plates. J. Eng. Mech., 123: 214-221.
CrossRef | Direct Link | Liew, K.M. and J.B. Han, 1998. Bending solution for thick plates with quadrangular boundary. J. Eng. Mech., 124: 9-17.
CrossRef | Direct Link | Liew, K.M. and Y.Q. Huang, 2003. Bending and buckling of thick symmetric rectangular laminates using the moving least-squares differential quadrature method. Int. J. Mech. Sci., 45: 95-114.
CrossRef | Direct Link | Liew, K.M., C.M. Wang, Y. Xiang and S. Kitipornchai, 1998. Vibration of Mindlin Plates-Programming the p-Version Ritz Method. Elsevier, New York.
Liew, K.M., X. Zhao and A.J.M. Ferreira, 2011. A review of meshless methods for laminated and functionally graded plates and shells. Compos. Struct., 93: 2031-2041.
CrossRef | Direct Link | Liew, K.M., Y.Q. Haung and J.N. Reddy, 2003. Moving least squares differential quadrature method and its application to the analysis of shear deformable plates. Int. J. Numer. Meth. Eng., 56: 2331-2351.
CrossRef | Direct Link | Liew, K.M., Y.Q. Huang and J.N. Reddy, 2002. A hybrid moving least squares and differential quadrature (MLSDQ) meshfree method. Int. J. Comput. Eng. Sci., 3: 1-12.
CrossRef | Direct Link | Liew, K.M., Y.Q. Huang and J.N. Reddy, 2004. Analysis of general shaped thin plates by the moving least-squares differential quadrature method. Finite Elements Anal. Des., 40: 1453-1474.
CrossRef | Direct Link | Mukhopadhyay, M., 1989. Vibration and stability analysis of stiffened plates by semi-analytic finite difference method, part I: Consideration of bending displacements only. J. Sound Vibrat., 130: 27-39.
CrossRef | Direct Link | Panc, V., 1975. Theories of Elastic Plates. Springer Science and Business Media, New York, USA., ISBN-13: 9789028601048, pp: 13-41.
Ragb, O., M.S. Matbuly and M. Nassar, 2014. Analysis of composite plates using moving least squares differential quadrature method. Applied Math. Comput., 238: 225-236.
CrossRef | Direct Link | Reddy, J.N., 1997. Mechanics of Laminated Composite Plates Theory and Analysis. CRC Press, Boca Raton.
Reddy, J.N., 1999. Theory and Analysis of Elastic Plates. Taylor and Francis, Philadelphia.
Reddy, J.N., 2002. Energy Principles and Variational Methods in Applied Mechanics. John Wiley and Sons, New York, USA.
Sengupta, D., 1995. Performance study of a simple finite element in the analysis of skew rhombic plates. Comput. Struct., 54: 1173-1182.
CrossRef | Direct Link | Shu, C., 2000. Differential Quadrature and its Application in Engineering. Springer, New York, ISBN-13: 9781852332099, Pages: 340.
Tanaka, M. and A.N. Bercin, 1998. Static bending analysis of stiffened plates using the boundary element method. Eng. Anal. Boundary Elements, 21: 147-154.
CrossRef | Direct Link | Tanaka, M., T. Matsumoto and A. Shiozaki, 1994. Application of the boundary-domain-element method to the harmonic-bending-vibration problem of thin elastic plates. Eng. Anal. Boundary Elements, 13: 239-247.
CrossRef | Direct Link | Timoshenko, S. and S. Woinowsky-Krieger, 1959. Theory of Plates and Shells. 2nd Edn., McGraw-Hill Book Co., New York, pp: 580.
Tu, T.M., L.N. Thach and T.H. Quoc, 2010. Finite element modeling for bending and vibration analysis of laminated and sandwich composite plates based on higher-order theory. Comput. Mater. Sci., 49: S390-S394.
CrossRef | Direct Link | Vanmaele, C., D. Vandepitte and W. Desmet, 2007. An efficient wave based prediction technique for plate bending vibrations. Comput. Meth. Applied Mech. Eng., 196: 3178-3189.
CrossRef | Direct Link | Wang, C.M., G.T. Lim, J.N. Reddy and K.H. Lee, 2001. Relationships between bending solutions of Reissner and Mindlin plate theories. Eng. Struct., 23: 838-849.
CrossRef | Direct Link | Wang, X.W. and Z. Wu, 2013. Differential quadrature analysis of free vibration of rhombic plates with free edges. Applied Math. Comput., 225: 171-183.
CrossRef | Direct Link | Wen, P.H. and M.H. Aliabadi, 2008. An improved meshless collocation method for elastostatic and elastodynamic problems. J. Commun. Numer. Meth. Eng., 24: 635-651.
CrossRef | Direct Link | Wen, P.H. and M.H. Aliabadi, 2012. A hybrid finite difference and moving least square method for elasticity problems. Eng. Anal. Boundary Elements, 36: 600-605.
CrossRef | Direct Link | Zenkour, A.M., 2003. Exact mixed-classical solutions for the bending analysis of shear deformable rectangular plates. Applied Math. Model., 27: 515-534.
CrossRef | Direct Link | Zhang, L.W., P. Zhu and K.M. Liew, 2014. Thermal buckling of functionally graded plates using a local Kriging meshless method. Compos. Struct., 108: 472-492.
CrossRef | Direct Link | Zhu, P., L.W. Zhang and K.M. Liew, 2014. Geometrically nonlinear thermomechanical analysis of moderately thick functionally graded plates using a local Petrov-Galerkin approach with moving Kriging interpolation. Compos. Struct., 107: 298-314.
CrossRef | Direct Link |