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The formulation and computation of the nonlocal J-integral in bond-based peridynamics
Mechanical & Materials Engineering Faculty Publications
  • Wenke Hu, University of Nebraska-Lincoln
  • Youn Doh Ha, Kunsan National University, Korea
  • Florin Bobaru, University of Nebraska-Lincoln
  • Stewart A. Silling, Sandia National Laboratories, NM
Date of this Version

Int J Fract (2012) 176:195–206; DOI 10.1007/s10704-012-9745-8


US Govt work.


This work presents a rigorous derivation for the formulation of the J-integral in bond-based peridynamics using the crack infinitesimal virtual extension approach. We give a detailed description of an algorithm for computing this nonlocal version of the J-integral.We present convergence studies (m-convergence and δ-convergence) for two different geometries: a single edge-notch configuration and a double edge-notch sample.We compare the results with results based on the classical J-integral and obtained from FEM calculations that employ special elements near the crack tip.We identify the size of the nonlocal region for which the peridynamic J-integral value is near the classical FEM solutions.We discuss how the boundary conditions and the peridynamic “skin effect” may influence the peridynamic J-integral value.We also observe, computationally, the path-independence of the peridynamic J-integral.

Citation Information
Wenke Hu, Youn Doh Ha, Florin Bobaru and Stewart A. Silling. "The formulation and computation of the nonlocal J-integral in bond-based peridynamics" (2012)
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