Collapse Testing of Thermally Treated Line Pipe for Ultra-Deepwater Applications

DeGeer, Duane; Marewski, Ulrich; Hillenbrand, Hans-Georg; Weber, Bernadette; Crawford, Michael E.

doi:10.1115/omae2004-51569

Cited by 12 publications

(2 citation statements)

References 4 publications

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“…Experiments involving bending of pipes in the presence of external pressure have been reported in Refs. [4], [5], [6] and by others. Both the material response as well as the manufacturing process can affect the response and collapse of pipes under combined loading.…”

Section: Introductionmentioning

confidence: 82%

Interactive Buckling Tests of Externally Pressurized Stiffened Bent Pipelines

Hoseinzadeh

Showkati

2013

KEM

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The paper reports an experimental study on the collapse of long uniformly pressurized ring-stiffened bent pipelines. Bending in the presence of external pressure is experienced by pipelines during their installation and operation. The buckling aptitude of shells is dependent on two leading geometric ratios, i.e. the length to radius and radius to thickness. In this paper, four different ring-stiffened steel pipeline specimens were tested to collapse. The evolution of the specimens behavior that has been recorded in the presence of a uniform external pressure is outlined. A thin-walled pipeline is sensitive to buckling phenomena when it experiences locally a compressive stress. It is often considered that its behavior under bending is rather similar to pure compression, but very few are the experimental investigations that precise the real behavior of it. A comparison of experimental data to empirical formulae and design recommendations is finally achieved. Consequently, it has been found that with using ring stiffeners the structure behavior against the combination of loads is improved in all loading paths. Also it has been found that buckle propagation in all manners occurs suddenly and dynamically and the amount of initial bending moment is not serious in defining the number of buckling modes. Also, the considerable effects of a longitudinal spot weld line on the buckling strength and mode shapes are verified.

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Section: Introductionmentioning

confidence: 82%

Interactive Buckling Tests of Externally Pressurized Stiffened Bent Pipelines

Hoseinzadeh

Showkati

2013

KEM

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“…The specification of wall thickness to resist local buckling due to bending, axial tension, and external pressure was developed using limit state design codes and industry recognized experience with the benefits of thermal aging (1,2,3,4) to shed any unnecessary conservatism. Consequently, the wall thickness profile was defined to withstand the loads imposed during its installation and operation.…”

Section: Structural Designmentioning

confidence: 99%

Independence Trail-Pipeline Design Considerations

Sharif

2007

All Days

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TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractDesign optimization of long trunklines in deep water requires striking a balance between technical and economical pressures while satisfying constrains imposed by project execution plan, manufacturing, installation, pre-commissioning and operation. The paper present approaches and compromises adopted within the context of Independence Trail Pipeline project and lessons learned while building the world deepest offshore pipeline.

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Collapse of UOE/UOC Pipe Under External Pressure

Kyriakides¹,

Corona²

2023

Mechanics of Offshore Pipelines : Volume I

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Collapse Testing of Thermally Treated Line Pipe for Ultra-Deepwater Applications

Cited by 12 publications

References 4 publications

Interactive Buckling Tests of Externally Pressurized Stiffened Bent Pipelines

Interactive Buckling Tests of Externally Pressurized Stiffened Bent Pipelines

Independence Trail-Pipeline Design Considerations

Collapse of UOE/UOC Pipe Under External Pressure

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