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Archive of Applied Mechanics

Erschienen in:

19.07.2018 | Original

Symmetric Galerkin boundary element analysis of the interaction between multiple growing cracks in infinite domains

verfasst von: Tuan-Kiet Nguyen, Dinh-Huan Phan, Tan-Tung Phan, Anh-Vu Phan

Erschienen in: Archive of Applied Mechanics | Ausgabe 11/2018

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Abstract

The use of the symmetric Galerkin boundary element method (SGBEM) for studying the quasi-static interaction between multiple growing micro-cracks is presented in this work. The micro-cracks can conveniently be modeled in infinite domains, and this type of analysis can be handled by the SGBEM in a straightforward manner. In fact, it reduces the size of the analysis due to the absence of a physical boundary. A quasi-static multi-crack growth model based upon the maximum hoop stress criterion (MHSC), and the SGBEM was developed in this work. An improved quarter-point crack-tip element and adjusted maximum crack increments were employed to enhance the accuracy and effectiveness of the crack growth prediction. The improved quarter-point element has been known for producing accurate stress intensity factors required by the MHSC, while the technique used to adjust the maximum crack increment at each iteration of crack growth simulations allows to achieve converged (accurate) crack extension paths even if a relatively large maximum crack increment is selected at the onset. Several numerical examples were presented to show the effectiveness of the proposed multi-crack growth model.

Vorheriger Artikel Proper orthogonal decomposition for substructures in nonlinear finite element analysis: coupling by means of tied contact

Nächster Artikel Theoretically based hydrostatic stress analysis in short fiber composites for second stage creep using Legendre polynomials by micromechanics model and golden functions

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Titel: Symmetric Galerkin boundary element analysis of the interaction between multiple growing cracks in infinite domains
verfasst von: Tuan-Kiet Nguyen
Dinh-Huan Phan
Tan-Tung Phan
Anh-Vu Phan
Publikationsdatum: 19.07.2018
Verlag: Springer Berlin Heidelberg
Erschienen in: Archive of Applied Mechanics / Ausgabe 11/2018
Print ISSN: 0939-1533
Elektronische ISSN: 1432-0681
DOI: https://doi.org/10.1007/s00419-018-1430-6

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