The energy release rate for transient dynamic mode 𝐼 crack propagation in a general linearly viscoelastic body-Reference-Cited by-同舟云学术

The energy release rate for transient dynamic mode 𝐼 crack propagation in a general linearly viscoelastic body

Published:1994 Issue:2 Volume:52 Page:201-228
ISSN:0033-569X
Container-title:Quarterly of Applied Mathematics
language:en
Short-container-title:Quart. Appl. Math.

Author:

Herrmann J. M.,Walton J. R.

Abstract

A mathematical model of a semi-infinite mode I crack that suddenly begins to propagate at constant speed is constructed for a general linear viscoelastic body. Expressions for the Laplace transform of the stress, displacement, and stress intensity factor are derived for general loadings. A Barenblatt type process zone is incorporated into the model and used to determine the total energy flux into the crack tip. This energy release rate, G ( t ) G\left ( t \right ) , is constructed for two specific loadings: one following the advancing crack tip, the second remaining fixed as the crack tip advances. In each case G ( t ) G\left ( t \right ) is analyzed by asymptotic and numerical methods to determine its qualitative form and, in particular its rate of decay to its steady-state value. The effect of such simplifying assumptions as quasi-static propagation or an elastic material is also illustrated. The second loading is intended as an idealized model of the dynamic fracture experiments of Ravi-Chandar and Knauss [13–16].

Publisher

American Mathematical Society (AMS)

Subject

Applied Mathematics

Link

http://www.ams.org/qam/1994-52-02/S0033-569X-1994-1276234-8/S0033-569X-1994-1276234-8.pdf

Reference26 articles.

1. J. D. Achenbach and A. Neimitz, Fast fracture and crack arrest according to the Dugdale model, Engrs. Fracture Mech. 14, 385–395 (1981)

2. D. D. Ang, J. Lund, and F. Stenger, Complex variable and regularization methods of inversion of the Laplace transform, preprint

3. C. Atkinson, A note on some dynamic crack problems in linear viscoelasticity, Arch. Mech. (Arch. Mech. Stos.) 31, 829–849 (1979)

4. C. Atkinson and C. J. Coleman, On some steady-state moving boundary problems in the linear theory of viscoelasticity, J. Inst. Math. Appl. 20, 85–106 (1977)

5. C. Atkinson and J. R. D. List, A moving crack problem in a viscoelastic solid, Internat. J. Engrg. Sci. 10, 309–322 (1972)

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