Dr. Arman Shojaei

ArmanShojaei

Simulation von Werkstoff- und Strukturverhalten
Wissenschaftler
Tel: +49 (0)4152 87-2688
E-Mail Kontakt

Publikationen (Auswahl)

  • Shojaei, A., Mossaiby, F., Zaccariotto, M. and Galvanetto, U., 2019. A local collocation method to construct Dirichlet-type absorbing boundary conditions for transient scalar wave propagation problems. Computer Methods in Applied Mechanics and Engineering, 356(2019), pp 629-651.
  • Shojaei, A., Galvanetto, U., Rabczuk, T., Jenabi, A. and Zaccariotto, M., 2019. A generalized finite difference method based on the Peridynamic differential operator for the solution of problems in bounded and unbounded domains. Computer Methods in Applied Mechanics and Engineering, 343(2019), pp 100-126.
  • Bazazzadeh, S., Shojaei, A., Zaccariotto, M. and Galvanetto, U., 2019. Application of the Peridynamic differential operator to the solution of sloshing problems in tanks. Engineering Computations, 36(1), pp-45-83.
  • Shojaei, A., Mossaiby, F., Zaccariotto, M., Galvanetto, U., 2018. An adaptive multi-grid peridynamic method for dynamic fracture analysis. International Journal of Mechanical Sciences, 144(2018), pp 600-617.
  • Zaccariotto, M., Mudric, T., Tomasi, D., Shojaei, A. and Galvanetto, U., 2018. Coupling of FEM meshes with Peridynamic grids. Computer Methods in Applied Mechanics and Engineering, 330(2018), pp 471-497.
  • Mossaiby, F., Shojaei, A., Zaccariotto, M. and Galvanetto, U., 2017. OpenCL implementation of a high performance 3D Peridynamic model on graphics accelerators. Computers & Mathematics with Applications, 74(8), pp.1856-1870.
  • Shojaei, A., Mossaiby, F., Zaccariotto, M. and Galvanetto, U., 2017. The meshless finite point method for transient elastodynamic problems. Acta Mechanica, 228(10), pp.3581-3593.
  • Shojaei, A.,Zaccariotto, M. and Galvanetto, U., 2017. Coupling of 2D discretized Peridynamics with a meshless method based on classical elasticity using switching of nodal behaviour. Engineering Computations, 34(5), 1334-1366.
  • Shojaei, A., Mudric, T., Zaccariotto, M. and Galvanetto, U., 2016. A coupled meshless finite point/Peridynamic method for 2D dynamic fracture analysis. International Journal of Mechanical Sciences, 119, pp.419-431.
  • Galvanetto, U., Mudric, T., Shojaei, A. and Zaccariotto, M., 2016. An effective way to couple FEM meshes and Peridynamics grids for the solution of static equilibrium problems. Mechanics Research Communications, 76, pp.41-47.
  • Shojaei, A., Boroomand, B. and Soleimanifar, E., 2016. A meshless method for unbounded acoustic problems. The Journal of the Acoustical Society of America, 139(5), pp.2613-2623.
  • Shojaei, A., Boroomand, B. and Mossaiby, F., 2015. A simple meshless method for challenging engineering problems. Engineering Computations, 32(6), pp.1567-1600.
  • Mossaiby, F., Bazrpach, M. and Shojaei, A., 2015. Extending the method of exponential basis functions to problems with singularities. Engineering Computations, 32(2), pp.406-423.
  • Shojaei, A., Riahi, H.T. and Hirmand, M., 2015. Finite element modeling of incremental bridge launching and study on behavior of the bridge during construction stages. International Journal of Civil Engineering, 13(1 A), pp.112-125.

Dissertation

  • Shojaei Barjoui, A. (2018). On the coupling of peridynamics with the classical theory of continuum mechanics in a meshless framework. University of Padova, Italy.