Crack path bifurcation at a tear strap in a pressurized shell

Bifurcation of an initially longitudinal through crack in an internally pressurized cylindrical shell at a circumferential stiffener is investigated using a finite element analysis. The finite element model is developed from a fracture test of an aluminum shell having a 22.9 cm radius, a 1.02 mm wal...

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Bibliographic Details
Published in:Computers & structures 2003-07, Vol.81 (16), p.1633-1642
Main Authors: Keesecker, Amy L., Dávila, Carlos G., Johnson, Eric R., Starnes, James H.
Format: Article
Language:English
Subjects:
Crack growth
Cylindrical shell
Experiment
Internal pressure
Nonlinear analysis
Tear strap
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Summary:Bifurcation of an initially longitudinal through crack in an internally pressurized cylindrical shell at a circumferential stiffener is investigated using a finite element analysis. The finite element model is developed from a fracture test of an aluminum shell having a 22.9 cm radius, a 1.02 mm wall thickness, and stiffened by two externally bonded circumferential straps spaced 40.6 cm apart. After initial stable crack growth in the longitudinal direction with increasing pressure, the crack propagated dynamically toward the strap, bifurcated near the strap into circumferential branches running parallel to the straps. Stable and unstable crack growth curves of pressure versus half-crack length are determined from the nonlinear analysis using a critical value of the crack tip opening angle as the criterion to predict crack growth. Although the crack growth curves are determined from a static analysis, they corroborate the test results for the location of crack path bifurcation. Also, the principal stress criterion for predicting crack turning is consistent with the test.
ISSN:0045-7949
1879-2243
DOI:10.1016/S0045-7949(03)00165-2