The development and validation of a dynamic fracture propagation model for gas transmission pipelines

A fracture control methodology that will prevent the possibility of long-running crack propagation, based on the crack-tip opening angle (CTOA) is outlined here. Two aspects are considered: (1) the calculation of the maximum CTOA for a given geometry and loading and (2) the determination of the crit...

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Bibliographic Details
Published in:The International journal of pressure vessels and piping 1997, Vol.70 (1), p.11-25
Main Authors: O'Donoghue, P.E., Kanninen, M.F., Leung, C.P., Demofonti, G., Venzi, S.
Format: Article
Language:English
Subjects:
Applied sciences
Energy
Exact sciences and technology
Fuels
Gas industry
Gas transmission and distribution. Ships. Pipelines. Distribution networks. Compressors stations
Gases
Mathematical models
Q1
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Summary:A fracture control methodology that will prevent the possibility of long-running crack propagation, based on the crack-tip opening angle (CTOA) is outlined here. Two aspects are considered: (1) the calculation of the maximum CTOA for a given geometry and loading and (2) the determination of the critical material property for fracture, (CTOA) c. The vehicle for CTOA calculations was a fluid/structure/fracture interaction inelastic dynamic computational model for fast long-running fracture in pipelines. Validation of the approach used in this analysis was provided through quantitative comparisons with measured full-scale burst test data. A convenient two-specimen dropweight tear test was used to determine the (CTOA) c for line pipe steels. The linking of the latter with the quantification of a maximum CTOA for steady-state ductile fracture, using the numerical model, provides the basis for an approach that evaluates the conditions needed to ensure crack arrest.
ISSN:0308-0161
1879-3541
DOI:10.1016/S0308-0161(96)00012-9