This paper investigates the rupture of thin-walled ductile cylinders with isolated corrosion defects, subject only to internal pressure. It aims to propose a new solution for predicting the maximum load limit that will rupture a corroded pipeline, regardless of its material, its geometric ratio, or the dimensions of the existing corrosion defect. This solution is the result of several numerical simulations by variation of the length and depth of the defect with the assumption that the width of the defect has a negligible marginal effect. In all our numerical simulation analyses, the rupture was controlled by the Tresca failure criterion which is expressed in terms of material hardening exponent and the ultimate material stress. The proposed solution was then compared with the currently used coded methods, first B31.G, its improved version 0.85dL, and then DNV-RP F101, using an experimental database compiled from the existing literature. As a result, our proposed solution has been validated and has resulted in rupture ratios ranging from approximately 0.7 to 1. Furthermore, it has a tight prediction range compared to the B31.G, 0.85dL, and the DNV-RP F101 methods.
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August 2018
Research-Article
Prediction of the Rupture Pressure of Transmission Pipelines With Corrosion Defects
Mechri Abdelghani,
Mechri Abdelghani
Composite Structures and Innovative Materials
Laboratory (LSCMI),
Mechanical Engineering Faculty,
University of Sciences and Technology,
Mohamed Boudiaf (USTOMB),
BP 1505, El M'naouer,
Oran 31000, Algeria
e-mail: abdelghani.mechri@univ-usto.dz
Laboratory (LSCMI),
Mechanical Engineering Faculty,
University of Sciences and Technology,
Mohamed Boudiaf (USTOMB),
BP 1505, El M'naouer,
Oran 31000, Algeria
e-mail: abdelghani.mechri@univ-usto.dz
Search for other works by this author on:
Ghomari Tewfik,
Ghomari Tewfik
Aeronautics and Propulsive Systems Laboratory
(LASP),
Mechanical Engineering Faculty,
University of Sciences and Technology,
Mohamed Boudiaf (USTOMB),
Oran 31000, Algeria
e-mail: tewfikghomari@yahoo.com
(LASP),
Mechanical Engineering Faculty,
University of Sciences and Technology,
Mohamed Boudiaf (USTOMB),
BP 1505, El M'naouer
,Oran 31000, Algeria
e-mail: tewfikghomari@yahoo.com
Search for other works by this author on:
Djouadi Djahida,
Djouadi Djahida
Composite structures and Innovative Materials
Laboratory (LSCMI),
Mechanical Engineering Faculty,
University of Sciences and Technology,
Mohamed Boudiaf (USTOMB),
Oran 31000, Algeria
e-mail: djahidai.djouadi@univ-usto.dz
Laboratory (LSCMI),
Mechanical Engineering Faculty,
University of Sciences and Technology,
Mohamed Boudiaf (USTOMB),
BP 1505, El M'naouer
,Oran 31000, Algeria
e-mail: djahidai.djouadi@univ-usto.dz
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Sfiat Sid Ahmed
Sfiat Sid Ahmed
Mechanical Engineering Faculty,
University of Sciences and Technology,
Mohamed Boudiaf (USTOMB),
Oran 31000, Algeria
e-mail: sfiat@hotmail.com
University of Sciences and Technology,
Mohamed Boudiaf (USTOMB),
BP 1505, El M'naouer
,Oran 31000, Algeria
e-mail: sfiat@hotmail.com
Search for other works by this author on:
Mechri Abdelghani
Composite Structures and Innovative Materials
Laboratory (LSCMI),
Mechanical Engineering Faculty,
University of Sciences and Technology,
Mohamed Boudiaf (USTOMB),
BP 1505, El M'naouer,
Oran 31000, Algeria
e-mail: abdelghani.mechri@univ-usto.dz
Laboratory (LSCMI),
Mechanical Engineering Faculty,
University of Sciences and Technology,
Mohamed Boudiaf (USTOMB),
BP 1505, El M'naouer,
Oran 31000, Algeria
e-mail: abdelghani.mechri@univ-usto.dz
Ghomari Tewfik
Aeronautics and Propulsive Systems Laboratory
(LASP),
Mechanical Engineering Faculty,
University of Sciences and Technology,
Mohamed Boudiaf (USTOMB),
Oran 31000, Algeria
e-mail: tewfikghomari@yahoo.com
(LASP),
Mechanical Engineering Faculty,
University of Sciences and Technology,
Mohamed Boudiaf (USTOMB),
BP 1505, El M'naouer
,Oran 31000, Algeria
e-mail: tewfikghomari@yahoo.com
Djouadi Djahida
Composite structures and Innovative Materials
Laboratory (LSCMI),
Mechanical Engineering Faculty,
University of Sciences and Technology,
Mohamed Boudiaf (USTOMB),
Oran 31000, Algeria
e-mail: djahidai.djouadi@univ-usto.dz
Laboratory (LSCMI),
Mechanical Engineering Faculty,
University of Sciences and Technology,
Mohamed Boudiaf (USTOMB),
BP 1505, El M'naouer
,Oran 31000, Algeria
e-mail: djahidai.djouadi@univ-usto.dz
Sfiat Sid Ahmed
Mechanical Engineering Faculty,
University of Sciences and Technology,
Mohamed Boudiaf (USTOMB),
Oran 31000, Algeria
e-mail: sfiat@hotmail.com
University of Sciences and Technology,
Mohamed Boudiaf (USTOMB),
BP 1505, El M'naouer
,Oran 31000, Algeria
e-mail: sfiat@hotmail.com
1Corresponding author.
Contributed by the Pressure Vessel and Piping Division of ASME for publication in the JOURNAL OF PRESSURE VESSEL TECHNOLOGY. Manuscript received October 14, 2017; final manuscript received March 9, 2018; published online May 10, 2018. Assoc. Editor: Oreste S. Bursi.
J. Pressure Vessel Technol. Aug 2018, 140(4): 041701 (13 pages)
Published Online: May 10, 2018
Article history
Received:
October 14, 2017
Revised:
March 9, 2018
Citation
Abdelghani, M., Tewfik, G., Djahida, D., and Sid Ahmed, S. (May 10, 2018). "Prediction of the Rupture Pressure of Transmission Pipelines With Corrosion Defects." ASME. J. Pressure Vessel Technol. August 2018; 140(4): 041701. https://doi.org/10.1115/1.4039698
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