Hygrothermal Analysis of Laminated Composite Plates by Using Efficient Higher Order Shear Deformation Theory
Subject Areas : Engineering
1 - Department of Civil Engineering, Indian Institute of Technology
2 - Department of Civil Engineering, Indian Institute of Technology
Keywords:
Abstract :
[1] Whitney J.M., Ashton J.E., 1971, Effect of environment on the elastic response of layered composite plates, AIAA Journal 9: 1708-1713.
[2] Wu C.H., Tauchert T.R., 1980, Thermoelastic analysis of laminated plates 2: Antisymmetric cross-ply and angle-ply laminates, Journal of Thermal Stresses 3: 365-378.
[3] Rolfes R., Noor A.K., Sparr H., 1998, Evaluation of transverse thermal stresses in composite plates based on first-order shear deformation theory, Computer Methods Applied in Mechanical Engineering 167:355-368.
[4] Reddy J.N., 1984, A Simple higher-order theory for laminated composite plates, ASME Journal of Applied Mechanics 51: 745-782.
[5] Reddy J.N., Hsu Y. S., 1984, Effects of shear deformation and anisotropy on the thermal bending of layered composite plates, Journal of Thermal Stresses 3: 475-493.
[6] Sai Ram K. S., Sinha P.K., 1991, Hygrothermal effects on the bending characteristics of laminated composite plates, Computers and Structures 40: 1009-1015.
[7] Kapania K.R., Mohan P., 1996, Static free vibration and thermal analysis of composite plates and shells using a flat shell element, Computational Mechanics 17: 343-357.
[8] Chandrashekhara K., Tenneti R., 1994, Non linear static and dynamic analysis of heated laminated plates, Composite Structures 51: 85-94.
[9] Reddy J.N., 1984, A simple higher-order theory for laminated composite plates. ASME Journal of Applied Mechanics 45: 745-752.
[10] Phan N.D., Reddy J.N., 1985, Analyses of laminated composite plates using a higher-order shear deformation theory, International Journal of Numerical Methods Engineering 21: 2201-2219.
[11] DiScuiva M., 1987, An improved shear deformation theory for moderately thick multilayered anisotropic shells and plates, ASME Journal of Applied Mechanics 54: 589-596.
[12] Chakrabarti A., Sheikh A.H., 2003, A new plate bending element based on higher order shear deformation theory for the analysis of composite plates, Finite Elements Analysis and Design 39(9): 883-903.
[13] Rohwer K., Rolfes R., Sparr H., 2001, Higher-order theories for thermal stresses in layered plates, International Jounal of Solids and Structures 38: 3673-3687.
[14] Patel B.P., Ganapathi M., Makhecha D.P., 2002, Hygrothermal effects on the structural behavior of thick composite laminates using higher-order theory, Composite Structures 56: 25-34.
[15] Zhen Wu., Wanji Chen., 2006, An efficient higher order theory and finite element for laminated plates subjected to thermal loading, Composite Structures 73: 99-109.
[16] Zhen Wu., Wanji Chen., 2007, A quadrilateral element based on refined global-local higher- order theory for coupling bending and extension thermo-elastic multilayered plates, International Jounal of Solids and Structures 44: 3187-3217.
[17] Zhen Wu., Wanji Chen., Xiaohui Ren., 2009, Refined global-local higher order theory for angle-ply laminated plates under thermo-mechanical loads and finite element model, Composite Structures 88: 643-658.
[18] Brischetto S., Carrera E., 2010, Coupled thermo-mechanical analysis of one-layered and multilayered plates, Composite Structures 92: 1793-1812.
[19] Zhen Wu., Cheung Y. K., Sh Lo., Wanji Chen., 2010, On the thermal expansion effects in the transverse direction of laminated composite plates by means of global-local higher-order model, International Journal of Mechanical Science 52: 970-981.
[20] Murakami H., 1993, Assessment of plate theories for treating the thermomechanical response of layered plates, Composite Engineering 3(2): 137-149.
[21] Savoia M., Reddy J.N., 1995, Three-dimensional thermal analysis of laminated composite plates, International Jounal of Solids and Structures 32(5): 593-608.
[22] Bhaskar K., Varadan T.K., Ali J.S.M., 1996, Thermoelastic solutions for orthotropic and anisotropic composite laminates, Composites Part B 27: 415-420.
[23] Kant T., Pendheri Sandeep S., Desai Yogesh M., 2008, An efficient semi analytical model for composite and sandwich plates subjected to thermal load, Journal of Thermal Stresses 31(1): 77-103.
[24] Shankara C.A., Iyengar N.G.R., 1992, Analysis of composite plates with higher-order shear deformation theory, Mechanics Research Communications 19(4): 301-314.
[25] Naganarayana B.P., Mohan P.Rama., Prathap G., 1997, Accurate thermal stress predictions using C0-continuous higher order shear deformable elements, Computer Methods in Applied Mechanical Engineering 144: 61-75.
[26] Prathap G., Naganarayana B.P, 1995, Consistent thermal stress evaluation in finite elements, Computers and Structures 54(3): 415-426.
[27] Das Y.C., Rath B. K., 1972, Thermal bending of moderately thick rectangular plates, AIAA Journal 10: 1349-135.
[28] Timoshenko S., Woinowsky-K., 1959, Theory of Plates and Shells, Second Edition, McGraw-Hill, New York.
