Implementation

  • P. Diehl, P. K. Jha, H. Kaiser, R. Lipton, and M. Lévesque. An asynchronous and task-based implementation of peridynamics utilizing hpx—the C++ standard library for parallelism and concurrency. SN Applied Sciences, 2(12):2144, 2020, 10.1007/s42452-020-03784-x, Preprint.
  • Jha, PK, Lipton R. “Numerical convergence of finite difference approximations for state based peridynamic fracture models.” Computer Methods in Applied Mechanics and Engineering, 1 July 2019, 351(1), 184 - 225. Link
  • P. Gadikar, P. Diehl, P. K. Jha, Load balancing for distributed nonlocal models within asynchronous many-task systems, Preprint

Applications

  • Lipton RP, Lehoucq RB, Jha PK. “Complex fracture nucleation and evolution with nonlocal elastodynamics”. Journal of Peridynamics and Nonlocal Modeling. 2019:1-9. Link

  • Lipton RP, Said E, Jha PK.”Free damage propagation with memory”. Journal of Elasticity, 14 March 2018, 133(2), 129-153. Link

  • Jha PK, Lipton RP. Kinetic relations and local energy balance for LEFM from a nonlocal peridynamic model. International Journal of Fracture. 2020 Sep 5:1-5. Link