Pablo Seleson Research Scientist Contact 865.576.2856 | SELESONPD@ORNL.GOV All Publications Workshop on Experimental and Computational Fracture Mechanics 2020 Meshfree Methods... Co-design for Particle Applications at Exascale PDMATLAB2D: A Peridynamics MATLAB Two-dimensional Code Dirichlet-type absorbing boundary conditions for peridynamic scalar waves in two-dimensional viscous media Peridynamic elastic waves in two-dimensional unbounded domains: Construction of nonlocal Dirichlet-type absorbing boundary conditions Data-driven surrogate modeling of hPIC ion energy-angle distributions for high-dimensional sensitivity analysis of plasma parameters' uncertainty The Evolution of the Peridynamics Co-Authorship Network A New Proof That the Number of Linear Elastic Symmetries in Two Dimensions Is Four A hybrid meshfree discretization to improve the numerical performance of peridynamic models... An Advanced Meso-Scale Peridynamic Modeling Technology using High-Performance Computing for Cost-Effective Product Design and Testing of Carbon Fiber Reinforced Polymer Composites in Light-weight Vehicles A Review of Local-to-Nonlocal Coupling Methods in Nonlocal Diffusion and Nonlocal Mechanics An FEM-Based Peridynamic Model for Failure Analysis of Unidirectional Fiber-Reinforced Laminates Overall equilibrium in the coupling of peridynamics and classical continuum mechanics... Dirichlet absorbing boundary conditions for classical and peridynamic diffusion-type models Bond-Based Peridynamics: a Tale of Two Poisson’s Ratios A general peridynamics model for multiphase transport of non-Newtonian compressible fluids in porous media A peridynamic failure analysis of fiber-reinforced composite laminates using finite element discontinuous Galerkin approximations Numerical Tools for Improved Convergence of Meshfree Peridynamic Discretizations A reproducing kernel enhanced approach for peridynamic solutions A surrogate modeling approach for crack pattern prediction in peridynamics Links between peridynamic and atomistic models Coupling local and nonlocal models On the consistency between nearest-neighbor peridynamic discretizations and discretized classical elasticity models Convergence studies in meshfree peridynamic simulations Pagination Current page 1 Page 2 Next page ›â¶Äº Last page Last » Key Links Curriculum Vitae Organizations Computing and Computational Sciences Directorate Computer Science and Mathematics Division Mathematics in Computation Section Multiscale Methods and Dynamics Group
