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References

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2. AIAA J v.27 no.7 Recent Advances in Analysis of Laminated Beams and Plates, Part Ⅱ: Vibration and Wave Propagation Kapania, R. K.;Raciti, S.
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10. ASME J. Appl. Mech v.54 A Composite Plate Theory for Arbitray Laminate Configurations Toledano, A.;Murakami, H.
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29. Composite Struc. v.54 A New post-processing Method for Laminated Composites of General Lamination Configurations Cho, M.;Choi, Y. J.
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32. J. Sound Vib v.30 no.4 A Refined Analysis of Composite Laminates Srinivas, S.
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34. ASME J. Appl. Mech. v.18 Influence of Rotatory Inertia and Shear in Flexural Motions of Isotropic Elastic Plates Mindlin, R. D.
35. NACA TN-1833 Notes on the Foundations of the Theory of Small Displacements Orthotorpic Shells Hildebrand, F. B.;Reissner, E.;Thomas, G. B.
36. ASME J. Appl. Mech. v.44 A Higher-order Theory of Plate Deformation, Part 2: Laminated Plates Lo, K. H.;Christensen, R. M.;Wu, E. M.
37. Composite Eng. v.4 Static and Dynamic Response of Moderately Thick Laminated Beams with Damage Averil, R. C.
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39. AIAA/ASME/ASCE/AHS/ASC, Structures, 42th SDM Conference Implementation and Application of Zig-Zag Finite Elements for Composite bounded Tee-Joint Modeling Engelstad, S. P.;Averill, R. C.;Berry, O. T.;Eby, D. J.
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43. AIAA/ASME/ASCE/AHS/ASC, 42nd SDM Conference Higher order zig-zag theory for fully coupled thermo-electric-mechanical smart composite plates Cho, M.;Oh, J.
44. Int. J. of Solids and Struc. v.38 Higher-order Theories for Thermal Stresses in Layered Plates Rohwer, K.;Rolfes, R.;Sparr, H.
45. Composite Struct. v.40 no.2 First-ply Flexural Failure Analysis of Symmetric Cross-ply Laminates by the Postprocess Method Cho, M.;Yoon, J. Y.
46. Composite Structures v.34 no.1 Low Velocity Impact Damage in Composite Sandwich Beams Wu, C. L.;Sun, C. T.
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48. AIAA J. v.37 no.5 Free-edge Interlaminar Stress Analysis in Composite Laminates by the Extended Kantorovich Method Cho, M.;Yoon, J. Y.
49. Int. J. of Solids Struc. v.37 Iterative Free Edge Stress Analysis of Composite Laminates under Extension Bending, Twisting and Thermal Loadings Cho, M.;Kim, H. S.
50. AIAA/ASME/ASCE/AHS/ASC, 43nd SDM Conference Optimization of Laminates with free edges under Bounded Uncertainties Subject to Extension, Bending and Twisting Cho, M.;Rhee, S. Y.
51. Composite Struc. v.49 Free-edge Strength Analysis in Composite Laminates by the Extended Kantorovich Method Kim, H. S.;Cho, M.;Kim, G. I.
52. J. Appl. Mech. v.63 no.4 Theory for multilayered anisotropic plates with weakened interfaces Cheng, Z. Q.;Jemah, A. K.;Williams, F. W.
53. J. Eng. Mechanics v.114 Shear Deformable Two-layer Plate Theory with Interlayer Slip Toledano, A.;Murakami, H.
54. Composite Part B: Engineering v.32 no.3 Contribution to the Nonlinear Theory of Multilayered Composite Shells Featuring Damaged Interface Di Sciuva, M.;Librescu, L.
55. Int. J. of Solids and Struc. v.17 no.11 One-Dimensional Modeling of Failure in Laminated Plates by Delamination Buckling Chai, H.;Bobcock, C. D.;Knauss, W. B.
56. Delamination Buckling of Flat Laminates;Buckling and Postbuckling of Composite Plates Simitses, G. J.;G. J. Turvey(ed.);I. H. Marshall(ed.)
57. AIAA J. v.31 no.2 Layer-Wise Approach for the Bifurcation Problem in Laminated Composites with Delaminations Lee, J.;Gurdal, Z.;Griffin, O. H.
58. AIAA J. v.33 no.10 Postbuckling of Laminated Composites with Delaminations Lee, J.;Gurdal, Z.;Griffin, O. H.
59. AIAA J. v.35 no.10 Bifurcation Buckling Analysis of Delaminated Composites Using Global-Local Approach Cho, M.;Kim, J. S.
60. AIAA J. v.37 no.6 Postbuckling of Delaminated Composites Under Compressive Loads Using Global-Local Approach Kim, J. S.;Cho, M.
61. Proceedings of the AIAA/ASME/ASCE/AHS/ASC 39th Structures, Structural Dynamics and Materials Conference Global/Local Analysis of Laminated Composites With Multiple Delaminations of Various Shapes Cho, M.;Lee, S. G.
62. Elasticity Solution for Delamination Buckling of Plates Gu, H.;Chattopadhyay, A.
63. Proceedings of the AIAA/ASME/ASCE/AHS/ASC 39th Structures, Structural Dynamics and Materials Conference Elasticity Solution for Delamination Buckling of Plates Gu, H.;Chattopadhyay, A.
64. ASME J. of Applied Mech. v.68 Higher Order Zig-zag Composite Plate Theory with Multiple Delaminations Cho, M.;Kim, J. S.
65. Int. J. for Numer. Methods in Eng. Buckling Analysis for Delaminated Composites Using Plate Bending Elements Based on Higher-order Zig-zag Theory Kim, J. S.;Cho, M.
66. AIAA J. Efficient Higher Order Shell Theory for Laminated Composites with Multiple Delaminations Kim, J. S.;Cho, M.
67. Int. J. Solids Struc. v.35 no.25 Methods for Calculating Stress Intensity Factors for Interfacial Cracks between two Orthotropic solids Qian, W.;Sun, C. T.
68. AIAA Journal v.25 no.10 Use of Piezoelectric Actuators as Elements of Intelligent Structures Crawley, E. F.
69. AIAA J. v.30 no.3 Finite Element Analysis of Composite Structures Containing Distributed Piezoceramic Sensors and Actuators Ha, S. K.;Keilers, C.;Chang, F.
70. Int. J. of Solids & Structures v.34 no.3 Layerwise Mechanics and Finite Element for the Dynamic Analysis of Piezoelectric Composite Plates Saravanos, D.A;Heyliger, P.R.;Hopkins, D.A.
71. AIAA/ASME/ASCE/AHS/ASC, 43nd SDM Conference A Finite Element Based on Cubic Zig-Zag Plate Theory for the prediction for Thermo-Electric-Mechanical Behaviors Cho, M.;Oh, J.