International Conferences

  • International Conference on Design, Modelling and Experiments of Advanced Structures and Systems, DeMEASS2018, 30 September - 3 October 2018, Sesimbra, Portugal.
    Kulikov G.M., Plotnikova S.V. Nonlinear exact geometry solid-shell element for 3D stress analysis of layered piezoelectric structures.
  • International Conference on Design, Modelling and Experiments of Advanced Structures and Systems, DeMEASS2018, 30 September - 3 October 2018, Sesimbra, Portugal.
    Plotnikova S.V., Mamontov A.A., Kulikov G.M. Exact geometry SaS solid-shell element for FGM piezoelectric structures.
  • First International Conference on Mechanics of Advanced Materials and Structures (ICMAMS), 17-20 June 2018, Torino, Italy.
    Kulikov G.M., Plotnikova S.V. Finite rotation exact geometry shell element for 3D stress analysis of composite structures (pdf file).
  • International Conference on Theoretical, Analytical and Computational Methods for Composite Materials and Composite Structures, 23-25 May 2018, Wuhan, China.
    Li G., Cinefra M., Kulikov G.M., Carrera E., Pagani A. Hybrid-mixed refined beam elements based on Hu-Washizu variational principle.
  • Workshop on Micromechanics, Modelling and Failure of Composites, 15 December 2017, Torino, Italy.
    Kulikov G.M. Sampling surfaces formulation for 3D stress and vibration analyses of composite structures.
  • 20th International Conference on Composite Structures, ICCS20, 4-7 September 2017, Paris, France.
    Kulikov G.M. Strong and weak sampling surfaces formulations for three-dimensional stress and vibration analyses of composite structures (pdf file).
  • Eighth ECCOMAS Conference on Smart Structures and Materials, SMART 2017, 5-8 June 2017, Madrid, Spain.
    Kulikov G.M. Strong and weak sampling surfaces formulations for three-dimensional stress analysis of piezoelectric plates (pdf file).
  • Eighth ECCOMAS Conference on Smart Structures and Materials, SMART 2017, 5-8 June 2017, Madrid, Spain.
    Plotnikova S.V., Kulikov G.M., Carrera E., Mamontov A.A., Mamontov S.A. Finite element analysis of laminated piezoelectric shells via sampling surfaces formulation (pdf file).
  • Eighth ECCOMAS Conference on Smart Structures and Materials, SMART 2017, 5-8 June 2017, Madrid, Spain.
    Carrera E., Kulikov G.M., Valvano S. A multilayered plate elements accounting node-dependent kinematics for static analysis of piezoelectric structures (pdf file).
  • International Conference on Design, Modelling and Experiments of Advanced Structures and Systems, DeMEASS VIII, 21-24 May 2017, Moscow, Russia.
    Kulikov G.M., Plotnikova S.V. Strong and weak sampling surfaces formulations for 3D stress and vibration analyses of layered piezoelectric plates (pdf file).
  • International Conference on Design, Modelling and Experiments of Advanced Structures and Systems, DeMEASS VIII, 21-24 May 2017, Moscow, Russia.
    Plotnikova S.V., Kulikov G.M., Carrera E. Hybrid-mixed finite element method for piezoelectric shells through a sampling surfaces formulation (pdf file).
  • International Conference on Design, Modelling and Experiments of Advanced Structures and Systems, DeMEASS VIII, 21-24 May 2017, Moscow, Russia.
    Carrera E., Valvano S., Kulikov G.M. Node-dependent kinematic shell elements for the analysis of smart structures (pdf file).
  • World Congress on Advances in Civil, Environmental, and Materials Research, ACEM16, 28 August - 1 September 2016, Jeju, Korea.
    Kulikov G.M., Plotnikova S.V., Kulikov M.G. Coupled thermoelectroelastic analysis of composite cylindrical shells with embedded piezoelectric sensors and actuators (pdf file).
  • Second International Conference on Mechanics of Composites, 11-14 July 2016, Porto, Portugal.
    Kulikov G.M., Mamontov A.A., Plotnikova S.V., Mamontov S.A. Analytical and finite element modelling of laminated and functionally graded shells (pdf file).
  • 11th International Congress on Thermal Stresses, 5-9 June 2016, Salerno, Italy.
    Kulikov G.M., Mamontov A.A., Plotnikova S.V., Kulikov M.G. Three-dimensional analysis of thermal stresses in smart shells (pdf file).
  • International Symposium on Design, Modelling and Experiments of Advanced Structures and Smart Systems, DeMEASS VII, 4-7 October 2015, Radebeul, Germany.
    Kulikov G.M., Plotnikova S.V. 3D stress analysis of functionally graded layered piezoelectric shells.
  • International Conference on Shells, Plates and Beams, SPB 2015, 9-11 September 2015, Bologna, Italy.
    Kulikov G.M., Plotnikova S.V. A new concept of sampling surfaces and its implementation for layered and functionally graded doubly-curved shells.
  • Tenth International Conference on Composite Science and Technology, 2-4 September 2015, Lisbon, Portugal.
    Kulikov G.M., Plotnikova S.V. Three-dimensional thermopiezoelectric analysis of laminated and functionally graded plates and shells by a sampling surfaces method (pdf file).
  • Fifth International Congress on Computational Mechanics and Simulation, 10-13 December 2014, Chennai, India.
    Kulikov G.M., Plotnikova S.V. Three-dimensional modelling of functionally graded piezoelectric laminated shells (pdf file).
  • First International Conference on Mechanics of Composites, 8-12 June 2014, Stony Brook University, Long Island, New York, USA.
    Kulikov G.M. A new approach to 3D exact thermoelastic analysis of functionally graded laminated plates and shells (pdf file).
  • International Conference on Design, Modelling and Experiments of Advanced Structures and Systems, DeMEASS 2014, 25-28 May 2014, Ede, Netherlands.
    Kulikov G.M., Plotnikova S.V. 3D exact thermoelectroelastic analysis of piezoelectric laminated plates.
  • International Scientific Conference "Shell and Membrane Theories in Mechanics and Biology: from Macro- to Nanoscale Structures", 16-20 September 2013, Minsk, Belarus.
    Kulikov G.M., Plotnikova S.V. Three-dimensional exact analysis of functionally graded and laminated piezoelectric plates.
  • Sixth ECCOMAS Conference on Smart Structures and Materials, SMART2013, 24-26 June 2013, Torino, Italy.
    Kulikov G.M., Plotnikova S.V. Three-dimensional exact analysis of laminated piezoelectric plates and shells (pdf file).
  • International Conference on Mechanics of Nano, Micro and Macro Composite Structures, 18-20 June 2012, Torino, Italy.
    Kulikov G.M., Plotnikova S.V. Consistent use of higher order layer-wise models for solving 3D elasticity problems for thick laminated composite plates.
  • EUROMECH Colloquium "Shell-Like Structures - Non-Classical Theories and Applications", 22-26 August 2011, Wittenberg, Germany.
    Kulikov G.M., Plotnikova S.V. On the use of a new concept of sampling surfaces in a shell theory (pdf file).
  • International Conference on Computational & Experimental Engineering and Sciences, 17-21 April 2011, Nanjing, China.
    Kulikov G.M., Plotnikova S.V. Non-linear 9-parameter piezoelectric exact geometry solid-shell element based on the sampling surfaces technique.
  • International Conference on Computational & Experimental Engineering and Sciences, 17-21 April 2011, Nanjing, China.
    Plotnikova S.V., Kulikov G.M. A new concept of sampling surfaces in shell theory (pdf file).
  • International Conference on Design, Modelling and Experiments of Advanced Structures and Systems, DeMEASS IV, 27-30 March 2011, Urspelt, Luxembourg.
    Kulikov G.M. Non-linear piezoelectric exact geometry solid-shell element based on 9-parameter model (pdf file).
  • Tenth International Conference on Computational Structures Technology, 14-17 September 2010, Valencia, Spain.
    Kulikov G.M., Plotnikova S.V. Finite deformation exact geometry four-node solid-shell element for piezoelectric composite structures (pdf file).
  • Tenth International Conference on Computational Structures Technology, 14-17 September 2010, Valencia, Spain.
    Plotnikova S.V., Kulikov G.M. Higher-order exact geometry solid-shell element undergoing finite rotations (pdf file).
  • International Symposium on Aircraft Materials, 12-14 May 2010, Marrakech, Morocco.
    Kulikov G.M., Plotnikova S.V. Finite rotation geometrically exact piezoelectric four-node solid-shell element.
  • Ninth Conference "Shell Structures: Theory and Applications", 14-16 October 2009, Jurata, Poland.
    Kulikov G.M., Plotnikova S.V. Non-linear geometrically exact solid-shell element under follower loads (pdf file).
  • Seventh EUROMECH Solid Mechanics Conference, 7-11 September 2009, Lisbon, Portugal.
    Kulikov G.M., Plotnikova S.V. Effective geometrically exact piezoelectric solid-shell element based on 3D analytical integration (pdf file).
  • International Conference on Computational & Experimental Engineering and Sciences, 8-13 April 2009, Phuket, Thailand.
    Kulikov G.M., Plotnikova S.V. Non-Linear geometrically exact solid-shell elements with seven displacement degrees of freedom.
  • International Conference on Computational & Experimental Engineering and Sciences, 17-22 March 2008, Honolulu, USA.
    Kulikov G.M., Carrera E., Plotnikova S.V., Brischetto S. Geometrically exact assumed stress-strain four-node element based on the 9-parameter shell model (pdf file).
  • International Symposium on Design, Modelling and Experiments of Adaptive Structures and Smart Systems, 14-17 October 2007, Bad Herrenalb, Germany.
    Kulikov G.M., Plotnikova S.V. Four-node piezoelectric solid-shell element based on the first-order 7-parameter shell theory.
  • International Symposium on Design Modelling and Experiments of Adaptive Structures and Smart Systems, 10-12 July 2006, Bardonecchia, Italy.
    Kulikov G.M., Plotnikova S.V. Geometrically exact four-node piezoelectric solid-shell elements (pdf file).
  • Seventh International Conference on Computational Structures Technology, 7-9 September 2004, Lisbon, Portugal.
    Kulikov G.M., Plotnikova S.V. Hybrid stress-strain elements based on the first-order single-layer and layer-wise shell theories (pdf file).
  • International Conference on Computational & Experimental Engineering and Sciences, 26-29 July 2004, Madeira, Portugal.
    Kulikov G.M., Plotnikova S.V. Assumed stress-strain four-node elements based on the finite deformation first-order theory of multilayered shells (pdf file).