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Article
Studies of dynamic crack propagation and crack branching with peridynamics
Faculty Publications from the Department of Engineering Mechanics
  • Youn Doh Ha, Ph.D., University of Nebraska at Lincoln
  • Florin Bobaru, Ph.D., University of Nebraska at Lincoln
Date of this Version
1-1-2010
Comments
Published in International Journal of Fracture 162 (2010), pp. 229–244; doi: 10.1007/s10704-010-9442-4 Copyright © 2010 Springer Science+Business Media B.V. Used by permission.
Abstract
In this paper we discuss the peridynamic analysis of dynamic crack branching in brittle materials and show results of convergence studies under uniform grid refinement (m-convergence) and under decreasing the peridynamic horizon (δ-convergence). Comparisons with experimentally obtained values are made for the crack-tip propagation speed with three different peridynamic horizons.We also analyze the influence of the particular shape of themicro-modulus function and of different materials (Duran 50 glass and soda-lime glass) on the crack propagation behavior. We show that the peridynamic solution for this problem captures all the main features, observed experimentally, of dynamic crack propagation and branching, as well as it obtains crack propagation speeds that compare well, qualitatively and quantitatively, with experimental results published in the literature. The branching patterns also correlate remarkably well with tests published in the literature that show several branching levels at higher stress levels reached when the initial notch starts propagating. We notice the strong influence reflecting stress waves from the boundaries have on the shape and structure of the crack paths in dynamic fracture. All these computational solutions are obtained by using the minimum amount of input information: density, elastic stiffness, and constant fracture energy. No special criteria for crack propagation, crack curving, or crack branching are used: dynamic crack propagation is obtained here as part of the solution. We conclude that peridynamics is a reliable formulation for modeling dynamic crack propagation.
Citation Information
Youn Doh Ha and Florin Bobaru. "Studies of dynamic crack propagation and crack branching with peridynamics" (2010)
Available at: http://works.bepress.com/florin_bobaru/1/