Elastic nonlinearities in a one-dimensional model of fracture

Eran Bouchbinder and Ting-Shek Lo
Phys. Rev. E 78, 056105 – Published 10 November 2008

Abstract

The dynamics of rapid brittle cracks is commonly studied in the framework of linear elastic fracture mechanics where nonlinearities are neglected. However, recent experimental and theoretical work demonstrated explicitly the importance of elastic nonlinearities in fracture dynamics. We study two simple one-dimensional models of fracture in order to gain insights about the role of elastic nonlinearities and the implications of their exclusion in the common linear elastic approximation. In one model we consider the decohesion of a nonlinear elastic membrane from a substrate. In a second model we follow the philosophy of linear elastic fracture mechanics and study a linearized version of the nonlinear model. By analyzing the steady state solutions, the velocity-load relations and the response to perturbations of the two models we show that the linear approximation fails at finite crack tip velocities. We highlight certain features of the breakdown of the linear theory and discuss possible implications of our results to higher dimensional systems.

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  • Received 3 August 2008

DOI:https://doi.org/10.1103/PhysRevE.78.056105

©2008 American Physical Society

Authors & Affiliations

Eran Bouchbinder1 and Ting-Shek Lo2

  • 1Racah Institute of Physics, Hebrew University of Jerusalem, Jerusalem 91904, Israel
  • 2Department of Chemical Physics, Weizmann Institute of Science, Rehovot 76100, Israel

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Issue

Vol. 78, Iss. 5 — November 2008

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