Conference talk: Seamless multiphysics coupling with peridynamics enabled by nodal finite element approximation

Name: Conference talk: Seamless multiphysics coupling with peridynamics enabled by nodal finite element approximation
Start: 2025-04-05T00:00:00Z
Location: Lincoln, NE

Apr 5, 2025·

Prashant K. Jha

· 0 min read

Comparing NFEA and Meshfree methods

Abstract

This presentation discusses ongoing research in the seamless coupling of physics, such as diffusion of chemical components (corrosion) and temperature, with the peridynamics theory of fracture. This is achieved by a recently proposed and published nodal finite element approximation (NFEM) of peridynamics (Jha, Diehl, Lipton (2025) CMAME). NFEM provides a finite element representation of the deformation of structures at a computational cost comparable to mesh-free methods. Corrosion and heat distribution based on partial differential equations usually employ finite element approximation. Thus, the coupling is easily introduced by combining NFEM for peridynamics and FEM for other physics. After discussing formulation and numerical methods, some preliminary results will be presented, including cracking of two-dimensional structures in corrosive fields and under in-homogeneous temperature distribution.

Date

Apr 5, 2025 12:00 AM

Event

Midwest Numerical Analysis Day 2025

Location

Lincoln, NE

203 Avery Hall, Lincoln, NE 68588

Last updated on Apr 5, 2025

Peridynamics PeriDEM Multiphysics Numerical Method

Authors

Prashant K. Jha

Assistant Professor of Mechanical Engineering

Our group uses mechanics, applied mathematics, and computational science to understand and represent the complex behavior of materials, e.g., functional soft materials and granular materials.

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