Mechanics of Composite Materials and Structures

  • E.I. Grigolyuk, G.M. Kulikov. Multilayered Reinforced Shells. Analysis of Pneumatic Tires. M.: Mashinostroyenie, 1988, 288 p. (in Russian) (djv file).
  • G.M. Kulikov, A.V. Erofeev. Exact solution for functionally graded piezoelectric cylindrical shells. Trans. TSTU. 2013, Vol. 19, N 2, P. 390-401.
  • G.M. Kulikov, A.A Mamontov. Three-dimensional thermoelastic analysis of laminated anisotropic plates. Trans. TSTU. 2013, Vol. 19, N 4, P. 853-863.
  • 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.
  • G.M. Kulikov, S.V. Plotnikova. 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.
  • 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.
  • 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.
  • 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.
  • G.M. Kulikov, S.V. Plotnikova. 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.
  • G.M. Kulikov, S.V. Plotnikova. Cylindrical bending of angle-ply composite plates. Trans. TSTU. 2012, Vol. 18, N 2, P. 432-440.
  • 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.
  • 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.
  • G.M. Kulikov, S.V. Plotnikova. 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.
  • G.M. Kulikov, S.V. Plotnikova. 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.
  • G.M. Kulikov, S.V. Plotnikova. 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.
  • 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.
  • G.M. Kulikov, S.V. Plotnikova. Geometrically exact four-node piezoelectric solid-shell element. Mechanics of Advanced Materials and Structures. 2008, Vol. 15, N 3-4, P. 199-207.
  • 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.
  • G.M. Kulikov, S.V. Plotnikova. 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.
  • 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.
  • G.M. Kulikov, S.V. Plotnikova. 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.
  • G.M. Kulikov, S.V. Plotnikova. 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.
  • G.M. Kulikov, S.V. Plotnikova. On the use of 6-parameter multilayered shell models in structural mechanics. Trans. TSTU. 2004, Vol. 10, N 4, P. 1042-1052.
  • E.I. Grigolyuk, G.M. Kulikov, S.V. Plotnikova. Contact problem for pneumatic tire interacting with rigid foundation. Mechanics of Composite Materials. 2004, Vol. 40, N 5, P. 427-436.
  • 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.
  • G.M. Kulikov, S.V. Plotnikova. 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.
  • 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.
  • 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.
  • G.M. Kulikov, S.V. Plotnikova. 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.
  • G.M. Kulikov, S.V. Plotnikova. 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.
  • G.M. Kulikov, S.V. Plotnikova. 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.
  • E.I. Grigolyuk, G.M. Kulikov. The shear correction factor in the geometrically nonlinear theory of Timoshenko shells. Physics Doklady. 2002, Vol. 47, N 2, P. 145-147.
  • G.M. Kulikov, S.V. Plotnikova. Efficient mixed Timoshenko-Mindlin shell elements. International Journal for Numerical Methods in Engineering. 2002, Vol. 55, N 10, P. 1167-1183.
  • G.M. Kulikov, S.V. Plotnikova. 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.
  • E.I. Grigolyuk, G.M. Kulikov. On the shear correction factor in the Timoshenko-type shell theory. Physics Doklady. 2001, Vol. 46, N 11, P. 797-799.
  • G.M. Kulikov, S.V. Plotnikova. Finite element formulation of straight composite beams undergoing finite rotations. Trans. TSTU. 2001, Vol. 7, N 4, P. 617-633.
  • G.M. Kulikov. Analysis of initially stressed multilayered shells. International Journal of Solids and Structures. 2001, Vol. 38, N 26-27, P. 4535-4555.
  • 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.
  • G.M. Kulikov. Refined global approximation theory of multilayered plates and shells. Journal of Engineering Mechanics. 2001, Vol. 127, N 2, P. 119-125.
  • G.M. Kulikov, S.V. Plotnikova, 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.
  • G.M. Kulikov, S.V. Plotnikova. 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.
  • G.M. Kulikov. Computational models for multilayered composite shells with application to tires. Tire Science and Technology. 1996, Vol. 24, N 1, P. 11-38.
  • G.M. Kulikov. Thermoelasticity of flexible multilayered anisotropic shells. Mechanics of Solids. 1994, Vol. 29, N 2, P. 27-35.
  • G.M. Kulikov, S.V. Mishchenko. Thermally forced loading of multilayered anisotropic shells. Mechanics of Composite Materials. 1993, Vol. 29, N 2, P. 143-152.
  • G.M. Kulikov. Nonaxisymmetric deformation of tangentially loaded multilayered anisotropic shells of revolution. Mechanics of Composite Materials. 1993, Vol. 28, N 5, P. 409-413.
  • E.I. Grigolyuk, G.M. Kulikov. Axisymmetric deformation of multilayered anisotropic shells of revolution subjected to tangential loads. Mechanics of Composite Materials. 1993, Vol. 28, N 4, P. 334-340.
  • E.I. Grigolyuk, G.M. Kulikov. Local loading of rubber-cord shells of revolution. Mechanics of Composite Materials. 1992, Vol. 27, N 4, P. 436-441.
  • G.M. Kulikov. Nonaxisymmetric stress-strain state of multilayered anisotropic shells of revolution. Soviet Applied Mechanics. 1991, Vol. 26, N 11, P. 1077-1080.
  • G.M. Kulikov. Nonaxisymmetric loading of a prestressed multilayered reinforced shell. Mechanics of Composite Materials. 1990, Vol. 26, N 2, P. 254-258.
  • E.I. Grigolyuk, G.M. Kulikov. Mechanics of structures made of rubber and cord materials. Mechanics of Composite Materials. 1990, Vol. 25, N 4, P. 500-509.
  • 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.
  • E.I. Grigolyuk, G.M. Kulikov. 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.
  • E.I. Grigolyuk, G.M. Kulikov. General direction of development of the theory of multilayered shells. Mechanics of Composite Materials. 1988, Vol. 24, N 2, P. 231-241.
  • G.M. Kulikov. Influence of anisotropy on the stress state of multilayered reinforced shells. Soviet Applied Mechanics.  1987, Vol. 22, N 12, P. 1166-1170.
  • E.I. Grigolyuk, G.M. Kulikov. Effect of shear-stress nonuniformity in modern tires. Mechanics of Composite Materials. 1987, Vol. 22, N 5, P. 607-613.
  • E.I. Grigolyuk, G.M. Kulikov. 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.
  • E.I. Grigolyuk, G.M. Kulikov. A variant of the nonlinear theory of elastic multilayered flat shells. Mechanics of Composite Materials. 1986, Vol. 21, N 5, P. 587-593.
  • E.I. Grigolyuk, G.M. Kulikov. Design of radial tires on the basis of Timoshenko's generalized theory. Mechanics of Solids. 1984, Vol. 19, N 4, P. 162-170.
  • E.I. Grigolyuk, G.M. Kulikov. Toward a theory of elastic laminated anisotropic shells. Soviet Physics Doklady. 1984, Vol. 29, N 4, P. 344-345.
  • E.I. Grigolyuk, G.M. Kulikov. Axisymmetric deformation of anisotropic multilayered shells of revolution of intricate shapes. Mechanics of Composite Materials. 1982, Vol. 17, N 4, P. 437-445.
  • E.I. Grigolyuk, G.M. Kulikov. 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.
  • E.I. Grigolyuk, G.M. Kulikov. Approximate analysis of nonlinear transversely isotropic three-layered plates. Mechanics of Composite Materials. 1980, Vol. 16, N 2, P. 202-206.
  • E.I. Grigolyuk, G.M. Kulikov. Approximate analysis of anisotropic three-layered plates of finite deflection. Mechanics of Composite Materials. 1980, Vol. 16, N 1, P. 34-39.
  • G.M. Kulikov. On the theory of multilayered shallow shells of finite deflection. Mechanics of Solids. 1979, Vol. 14, N 3, P. 167-170.