Mechanics of Composite Materials and Structures

  • Grigolyuk E.I., Kulikov G.M. Multilayered Reinforced Shells. Analysis of Pneumatic Tires.- M.: Mashinostroyenie, 1988. - 288 p. (in Russian) (djv file).
  • Kulikov G.M., Erofeev A.V. Exact solution for functionally graded piezoelectric cylindrical shells // Trans. TSTU. - 2013. - Vol. 19, N 2. - P. 390-401.
  • Kulikov G.M., Mamontov A.A. Three-dimensional thermoelastic analysis of laminated anisotropic plates // Trans. TSTU. - 2013. - Vol. 19, N 4. - P. 853-863.
  • Kulikov G.M., Plotnikova S.V. 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.
  • Kulikov G.M., 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.
  • Kulikov G.M., Plotnikova S.V. Advanced formulation for laminated composite shells: 3D stress analysis and rigid-body motions // Composite Structures. - 2013. - Vol. 95. - P. 236-246.
  • Kulikov G.M., Plotnikova S.V. A new approach to three-dimensional exact solutions for functionally graded piezoelectric laminated plates // Composite Structures. - 2013. - Vol. 106. - P. 33-46.
  • Kulikov G.M., Plotnikova S.V. Three-dimensional exact analysis of laminated piezoelectric plates and shells // Advanced Materials Research. - 2013. - Vol. 745. - P. 1-12.
  • Kulikov G.M., 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.
  • Kulikov G.M., Plotnikova S.V. Cylindrical bending of angle-ply composite plates // Trans. TSTU. - 2012. - Vol. 18, N 2. - P. 432-440.
  • Kulikov G.M., Mamontov A.A., Plotnikova S.V., Erofeev A.V. Laminated composite shell in cylindrical bending // Trans. TSTU. - 2012. - Vol. 18, N 3. - P. 672-682.
  • Kulikov G.M., Plotnikova S.V. Exact 3D stress analysis of laminated composite plates by sampling surfaces method // Composite Structures. - 2012. - Vol. 94, N 11-12. - P. 3654-3663.
  • Kulikov G.M., Plotnikova S.V. Solution of a coupled problem of thermopiezoelectricity based on a geometrically exact shell element // Mechanics of Composite Materials. - 2010. - Vol. 46, N 4. - P. 349-364.
  • Kulikov G.M., Plotnikova S.V. Contact interaction of composite shells, subjected to follower loads, with a rigid convex foundation // Mechanics of Composite Materials. - 2010. - Vol. 46, N 1. - P. 43-56.
  • Kulikov G.M., Plotnikova S.V. Calculation of composite structures subjected to follower loads by using a geometrically exact shell element // Mechanics of Composite Materials. - 2009. - Vol. 45, N 6. - P. 545-556.
  • Kulikov G.M., Plotnikova S.V. 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.
  • Kulikov G.M., Plotnikova S.V. Geometrically exact four-node piezoelectric solid-shell element // Mechanics of Advanced Materials and Structures. - 2008. - Vol. 15, N 3-4. - P. 199-207.
  • Kulikov G.M., Carrera E. 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.
  • Kulikov G.M., Plotnikova S.V. Geometrically exact assumed stress-strain multilayered solid-shell elements based on the 3D analytical integration // Computers & Structures. - 2006. - Vol. 84, N 19-20. - P. 1275-1287.
  • Kulikov G.M., Plotnikova S.V. 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.
  • Kulikov G. M., Plotnikova S. V. Equivalent single-layer and layer-wise shell theories and rigid-body motions - Part II: Computational aspects // Mechanics of Advanced Materials and Structures. - 2005. - Vol. 12. - P. 331-340.
  • Kulikov G. M., Plotnikova S. V. Equivalent single-layer and layer-wise shell theories and rigid-body motions - Part I: Foundations // Mechanics of Advanced Materials and Structures. - 2005. - Vol. 12. - P. 275-283.
  • Kulikov G.M., Plotnikova S.V. On the use of 6-parameter multilayered shell models in structural mechanics // Trans. TSTU. - 2004. - Vol. 10, N 4. - P. 1042-1052.
  • Grigolyuk E.I., Kulikov G.M., Plotnikova S.V. Contact problem for pneumatic tire interacting with rigid foundation // Mechanics of Composite Materials. - 2004. - Vol. 40, N 5. - P. 427-436.
  • Kulikov G.M. Strain-displacement relationships that exactly represent large rigid displacements of a shell // Mechanics of Solids. - 2004. - Vol. 39, N 5. - P. 105-113.
  • Kulikov G.M., Plotnikova S.V. Non-conventional non-linear two-node hybrid stress-strain curved beam elements // Finite Elements in Analysis and Design. - 2004. - Vol. 40, N 11. - P. 1333-1359.
  • Kulikov G.M., Plotnikova S.V. Finite deformation plate theory and large rigid-body motions // International Journal of Non-Linear Mechanics. - 2004. - Vol. 39, N 7. - P. 1093-1109.
  • Kulikov G.M. Large rigid-body motions and strain-displacement relationships of the layer-wise shell theory // Trans. TSTU. - 2003. - Vol. 9, N 4. - P. 674-682.
  • Kulikov G.M., 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.
  • Kulikov G.M., Plotnikova S.V. Investigation of locally loaded multilayered shells by mixed finite-element method. 2. Geometrically nonlinear statement // Mechanics of Composite Materials. - 2002. - Vol. 38, N 6. - P. 539-546.
  • Kulikov G.M., Plotnikova S.V. Investigation of locally loaded multilayered shells by mixed finite-element method. 1. Geometrically linear statement // Mechanics of Composite Materials. - 2002. - Vol. 38, N 5. - P. 397-406.
  • Grigolyuk E.I., Kulikov G.M. The shear correction factor in the geometrically nonlinear theory of Timoshenko shells // Physics Doklady. - 2002. - Vol. 47, N 2. - P. 145-147.
  • Kulikov G.M., Plotnikova S.V. Efficient mixed Timoshenko-Mindlin shell elements // International Journal for Numerical Methods in Engineering. - 2002. - Vol. 55, N 10. - P. 1167-1183.
  • Kulikov G.M., Plotnikova S.V. Simple and effective elements based upon Timoshenko-Mindlin shell theory // Computer Methods in Applied Mechanics and Engineering. - 2002. - Vol. 191, N 11-12. - P. 1173-1187.
  • Grigolyuk E.I., Kulikov G.M. On the shear correction factor in the Timoshenko-type shell theory // Physics Doklady. - 2001. - Vol. 46, N 11. - P. 797-799.
  • Kulikov G.M., Plotnikova S.V. Finite element formulation of straight composite beams undergoing finite rotations // Trans. TSTU. - 2001. - Vol. 7, N 4. - P. 617-633.
  • Kulikov G.M. Analysis of initially stressed multilayered shells // International Journal of Solids and Structures. - 2001. - Vol. 38, N 26-27. - P. 4535-4555.
  • Kulikov G.M. Non-linear analysis of multilayered shells under initial stress // International Journal of Non-Linear Mechanics. - 2001. - Vol. 36, N 2. - P. 323-334.
  • Kulikov G.M. Refined global approximation theory of multilayered plates and shells // Journal of Engineering Mechanics. - 2001. - Vol. 127, N 2. - P. 119-125.
  • Kulikov G.M., Plotnikova S.V. Comparative analysis of two algorithms for numerical solution of nonlinear static problems for multilayered anisotropic shells of revolution. 2. Account of transverse compression // Mechanics of Composite Materials. - 1999. - Vol. 35, N 4. - P. 293-300.
  • Kulikov G.M., Plotnikova S.V. Comparative analysis of two algorithms for numerical solution of nonlinear static problems for multilayered anisotropic shells of revolution. 1. Account of transverse shear // Mechanics of Composite Materials. - 1999. - Vol. 35, N 3. - P. 241-248.
  • Kulikov G.M. Computational models for multilayered composite shells with application to tires // Tire Science and Technology. - 1996. - Vol. 24, N 1. - P. 11-38.
  • Kulikov G.M. Thermoelasticity of flexible multilayered anisotropic shells // Mechanics of Solids. - 1994. - Vol. 29, N 2. - P. 27-35.
  • Kulikov G.M., Mishchenko S.V. Thermally forced loading of multilayered anisotropic shells // Mechanics of Composite Materials. - 1993. - Vol. 29, N 2. - P. 143-152.
  • Kulikov G.M. Nonaxisymmetric deformation of tangentially loaded multilayered anisotropic shells of revolution // Mechanics of Composite Materials. - 1993. - Vol. 28, N 5. - P. 409-413.
  • Grigolyuk E.I., Kulikov G.M. Axisymmetric deformation of multilayered anisotropic shells of revolution subjected to tangential loads // Mechanics of Composite Materials. - 1993. - Vol. 28, N 4. - P. 334-340.
  • Grigolyuk E.I., Kulikov G.M. Local loading of rubber-cord shells of revolution // Mechanics of Composite Materials. - 1992. - Vol. 27, N 4. - P. 436-441.
  • Kulikov G.M. Nonaxisymmetric stress-strain state of multilayered anisotropic shells of revolution // Soviet Applied Mechanics. - 1991. - Vol. 26, N 11. - P. 1077-1080.
  • Kulikov G.M. Nonaxisymmetric loading of a prestressed multilayered reinforced shell // Mechanics of Composite Materials. - 1990. - Vol. 26, N 2. - P. 254-258.
  • Grigolyuk E.I., Kulikov G.M. Mechanics of structures made of rubber and cord materials // Mechanics of Composite Materials. - 1990. - Vol. 25, N 4. - P. 500-509.
  • Grigolyuk E.I., Kulikov G.M., Nosatenko P.Ya. 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.
  • Grigolyuk E.I., Kulikov G.M. Generalized model of the mechanics of thin-walled structures made of composite materials // Mechanics of Composite Materials. - 1989. - Vol. 24, N 4. - P. 537-543.
  • Grigolyuk E.I., Kulikov G.M. General direction of development of the theory of multilayered shells // Mechanics of Composite Materials. - 1988. - Vol. 24, N 2. - P. 231-241.
  • Kulikov G.M. Influence of anisotropy on the stress state of multilayered reinforced shells // Soviet Applied Mechanics.  - 1987. - Vol. 22, N 12. - P. 1166-1170.
  • Grigolyuk E.I., Kulikov G.M. Effect of shear-stress nonuniformity in modern tires // Mechanics of Composite Materials. - 1987. - Vol. 22, N 5. - P. 607-613.
  • Grigolyuk E.I., Kulikov G.M. Theory and numerical solution of of problems of the statics of multilayered reinforced shells // Mechanics Composite Materials. - 1987. - Vol. 22, N 4. - P. 450-457.
  • Grigolyuk E.I., Kulikov G.M. A variant of the nonlinear theory of elastic multilayered flat shells // Mechanics of Composite Materials. - 1986. - Vol. 21, N 5. - P. 587-593.
  • Grigolyuk E.I., Kulikov G.M. Design of radial tires on the basis of Timoshenko's generalized theory // Mechanics of Solids. - 1984. - Vol. 19, N 4. - P. 162-170.
  • Grigolyuk E.I., Kulikov G.M. Toward a theory of elastic laminated anisotropic shells // Soviet Physics Doklady. - 1984. - Vol. 29, N 4. - P. 344-345.
  • Grigolyuk E.I., Kulikov G.M. Axisymmetric deformation of anisotropic multilayered shells of revolution of intricate shapes // Mechanics of Composite Materials. - 1982. - Vol. 17, N 4. - P. 437-445.
  • Grigolyuk E.I., Kulikov G.M. Numerical solution of problems involving the statics of geometrically nonlinear anisotropic multilayered shells of revolution // Mechanics of Composite Materials. - 1981. - Vol. 17, N 3. - P. 294-302.
  • Grigolyuk E.I., Kulikov G.M. Approximate analysis of nonlinear transversely isotropic three-layered plates // Mechanics of Composite Materials. - 1980. - Vol. 16, N 2. - P. 202-206.
  • Grigolyuk E.I., Kulikov G.M. Approximate analysis of anisotropic three-layered plates of finite deflection // Mechanics of Composite Materials. - 1980. - Vol. 16, N 1. - P. 34-39.
  • Kulikov G.M. On the theory of multilayered shallow shells of finite deflection // Mechanics of Solids. - 1979. - Vol. 14, N 3. - P. 167-170.