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E.I. Grigolyuk, G.M. Kulikov. Multilayered Reinforced Shells.
Analysis of Pneumatic Tires. M.: Mashinostroyenie, 1988, 288 p. (in
Russian) (djv file).
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G.M. Kulikov, A.V. Erofeev. Exact solution for functionally graded piezoelectric cylindrical shells. Trans. TSTU. 2013, Vol. 19, N 2, P. 390-401.
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G.M. Kulikov, A.A. Mamontov. Three-dimensional thermoelastic analysis of laminated anisotropic plates. Trans. TSTU. 2013, Vol. 19, N 4, P. 853-863.
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G.M. Kulikov, S.V. Plotnikova. Three-dimensional exact analysis of piezoelectric laminated plates via a sampling surfaces method. International Journal of Solids and Structures. 2013, Vol. 50, P. 1916-1929.
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G.M. Kulikov, S.V. Plotnikova, Plotnikova S.V. A sampling surfaces method and its application to three-dimensional exact solutions for piezoelectric laminated shells. International Journal of Solids and Structures. 2013, Vol. 50, P. 1930-1943.
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G.M. Kulikov, S.V. Plotnikova. Advanced formulation for laminated composite shells: 3D stress analysis and rigid-body motions. Composite Structures. 2013, Vol. 95, P. 236-246.
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G.M. Kulikov, S.V. Plotnikova. A new approach to three-dimensional exact solutions for functionally graded piezoelectric laminated plates. Composite Structures. 2013, Vol. 106, P. 33-46.
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G.M. Kulikov, S.V. Plotnikova. Three-dimensional exact analysis of laminated piezoelectric plates and shells. Advanced Materials Research. 2013, Vol. 745, P. 1-12.
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G.M. Kulikov, S.V. Plotnikova, Plotnikova S.V. A method of solving three-dimensional problems of elasticity for laminated composite plates. Mechanics of Composite Materials. 2012, Vol. 48, N 1, P. 15-26.
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G.M. Kulikov, S.V. Plotnikova. Cylindrical bending of angle-ply composite plates. Trans. TSTU. 2012, Vol. 18, N 2, P. 432-440.
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G.M. Kulikov, A.A. Mamontov, S.V. Plotnikova, A.V. Erofeev. Laminated composite shell in cylindrical bending. Trans. TSTU. 2012, Vol. 18, N 3, P. 672-682.
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G.M. Kulikov, S.V. Plotnikova. On the use of sampling surfaces method for solution of 3D elasticity problems for thick shells. ZAMM - Journal of Applied Mathematics and Mechanics. 2012, Vol. 92, N 12, P. 910-920.
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G.M. Kulikov, S.V. Plotnikova. Exact 3D stress analysis of laminated composite plates by sampling surfaces method. Composite Structures. 2012, Vol. 94, N 11-12, P. 3654-3663.
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G.M. Kulikov, S.V. Plotnikova. Solution of static problems for a three-dimensional elastic shell. Doklady Physics. 2011, Vol. 56, N 8, P. 448-451.
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G.M. Kulikov, S.V. Plotnikova. On the use of a new concept of sampling surfaces in a shell theory. Advanced Structured Materials. 2011, Vol. 15, P. 715-726.
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G.M. Kulikov, S.V. Plotnikova. Finite rotation geometrically exact four-node solid-shell element with seven displacement degrees of freedom. Computer Modeling in Engineering & Sciences. 2008, Vol. 28, N 1, P. 15-38.
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G.M. Kulikov, E. Carrera. Finite deformation higher-order shell models and rigid-body motions. International Journal of Solids and Structures. 2008, Vol. 45, N 11-12, P. 3153-3172.
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G.M. Kulikov, S.V. Plotnikova. Non-linear strain-displacement equations exactly representing large rigid-body motions. Part III. Analysis of TM shells with constraints. Computer Methods in Applied Mechanics and Engineering. 2007, Vol. 196, N 7, P. 1203-1215.
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G.M. Kulikov, S.V. Plotnikova. Non-linear strain-displacement equations exactly representing large rigid-body motions. Part II. Enhanced finite element technique. Computer Methods in Applied Mechanics and Engineering. 2006, Vol. 195, N 19-22, P. 2209-2230.
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G.M. Kulikov. Strain-displacement relationships that exactly represent large rigid displacements of a shell. Mechanics of Solids. 2004, Vol. 39, N 5, P. 105-113.
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G.M. Kulikov, S.V. Plotnikova. Finite deformation plate theory and large rigid-body motions. International Journal of Non-Linear Mechanics. 2004, Vol. 39, N 7, P. 1093-1109.
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G.M. Kulikov, S.V. Plotnikova. The contact problem for a geometrically non-linear Timoshenko-type shell. Journal of Applied Mathematics and Mechanics. 2003, Vol. 67, N 6, P. 825-836.
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G.M. Kulikov. Large rigid-body motions and strain-displacement relationships of the layer-wise shell theory. Trans. TSTU. 2003, Vol. 9, N 4, P. 674-682.
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G.M. Kulikov, Plotnikova S.V. Non-linear strain-displacement equations exactly representing large rigid-body motions. Part I. Timoshenko-Mindlin shell theory. Computer Methods in Applied Mechanics and Engineering. 2003, Vol. 192, N 7-8, P. 851-875.
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G.M. Kulikov. Analysis of initially stressed multilayered
shells. International Journal of Solids and Structures. 2001, Vol. 38,
N 26-27, P. 4535-4555.
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G.M. Kulikov. Non-linear analysis of multilayered shells under
initial stress. International Journal of Non-Linear Mechanics. 2001,
Vol. 36, N 2, P. 323-334.
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G.M. Kulikov. Refined global approximation theory of multilayered
plates and shells. Journal of Engineering Mechanics. 2001, Vol. 127,
N 2, P. 119-125.
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G.M. Kulikov. Variational equation for the nonlinear multilayered
anisotropic shell of variable stiffness. Trans. TSTU. 1997, Vol.
3, N 1-2, P. 119-125.
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G.M. Kulikov. Mixed variational equation for geometrically
nonlinear multilayered anisotropic shell of variable thickness. Trans.
TSTU. 1995, Vol. 1, N 1-2, P. 129-135.
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G.M. Kulikov. Thermoelasticity of flexible multilayered anisotropic
shells. Mechanics of Solids. 1994, Vol. 29, N 2, P. 27-35.
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E.I. Grigolyuk, G.M. Kulikov, P.Ya. Nosatenko. Comparative
analysis of two approaches to more accurate calculation of laminated shells
made of composite materials. Mechanics of Composite Materials. 1989,
Vol. 24, N 6, P. 804-810.
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