this work, the authors formulate a 2-D linearized ordinary state-based peridynamic model of elastic deformations and compute the stiffness matrix for 2-D plane stress/strain conditions. This model is then verified by testing the recovery of elastic properties for given Poisson’s ratios in the range 0.1–0.45. The convergence behavior of peridynamic solutions in terms of the size of the nonlocal region by comparison with the classical (local) mechanics model is also discussed. The degree to which the peridynamic surface effect influences the recovery of elastic properties is examined, and stress/strain recovery values are found to have a definite influence on the results. The technique used here can provide the basis for applying 2-D peridynamic models to the study of fatigue failure and quasi-static fracture problem
Linearized state-based peridynamics for 2-D problems
SAREGO, GIULIA;ZACCARIOTTO, MIRCO;GALVANETTO, UGO
2016
Abstract
this work, the authors formulate a 2-D linearized ordinary state-based peridynamic model of elastic deformations and compute the stiffness matrix for 2-D plane stress/strain conditions. This model is then verified by testing the recovery of elastic properties for given Poisson’s ratios in the range 0.1–0.45. The convergence behavior of peridynamic solutions in terms of the size of the nonlocal region by comparison with the classical (local) mechanics model is also discussed. The degree to which the peridynamic surface effect influences the recovery of elastic properties is examined, and stress/strain recovery values are found to have a definite influence on the results. The technique used here can provide the basis for applying 2-D peridynamic models to the study of fatigue failure and quasi-static fracture problem
Pubblicazioni consigliate
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
