For certain applications, pipelines may be submitted to biaxial loading situations. In these cases, it is not clear the influence of the biaxial loading on the fracture mechanics behavior of cracked pipelines. For further understanding of biaxial loading effects, this work presents a numerical simulation of ductile tearing in a circumferentially surface cracked pipe under biaxial loading using the computational cell methodology. The model was adjusted with experimental results obtained in laboratory using single edge cracked under tension (SENT) specimens. These specimens appear as the better alternative to conventional fracture specimens to characterize fracture toughness of circumferentially cracked pipes. The negligible effect of biaxial loadings on resistance curves was demonstrated. To guarantee the similarities of stress and strains fields between SENT specimens and cracked pipes subjected to biaxial loading, a constraint study using the J-Q methodology and the h parameter was used. The constraint study gives information about the characteristics of the crack-tip conditions.
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ASME 2009 28th International Conference on Ocean, Offshore and Arctic Engineering
May 31–June 5, 2009
Honolulu, Hawaii, USA
Conference Sponsors:
- Ocean, Offshore and Arctic Engineering Division
ISBN:
978-0-7918-4346-8
PROCEEDINGS PAPER
Fracture Mechanics Evaluation of Pipes Subjected to Combined Load Conditions
Sebastian Cravero,
Sebastian Cravero
Tenaris Group, Campana, Argentina
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Richard E. Bravo,
Richard E. Bravo
Tenaris Group, Campana, Argentina
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Hugo A. Ernst
Hugo A. Ernst
Tenaris Group, Campana, Argentina
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Sebastian Cravero
Tenaris Group, Campana, Argentina
Richard E. Bravo
Tenaris Group, Campana, Argentina
Hugo A. Ernst
Tenaris Group, Campana, Argentina
Paper No:
OMAE2009-80025, pp. 219-225; 7 pages
Published Online:
February 16, 2010
Citation
Cravero, S, Bravo, RE, & Ernst, HA. "Fracture Mechanics Evaluation of Pipes Subjected to Combined Load Conditions." Proceedings of the ASME 2009 28th International Conference on Ocean, Offshore and Arctic Engineering. Volume 6: Materials Technology; C.C. Mei Symposium on Wave Mechanics and Hydrodynamics; Offshore Measurement and Data Interpretation. Honolulu, Hawaii, USA. May 31–June 5, 2009. pp. 219-225. ASME. https://doi.org/10.1115/OMAE2009-80025
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