2018
DOI: 10.1016/j.ijpvp.2018.07.006
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Buckling of internally-pressurized spiral-welded steel pipes under bending

Abstract: The mechanical behaviour of spiral-welded large-diameter steel pipes is simulated, with the purpose of defining their bending deformation capacity against local buckling. The steel pipes are candidates for hydrocarbon onshore pipeline applications with diameter-to-thickness ratio D/t equal to 53 and 69, and are subjected to longitudinal bending under internal pressure levels ranging from zero to 75% of the nominal yield pressure. Initial geometric imperfections are considered in the form of shortwave axial wri… Show more

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Cited by 10 publications
(3 citation statements)
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“…The paper is aimed at examining numerically the effect of manufacturing process on the structural (buckling) performance of spiral welded pipes, used in demanding onshore applications, and in moderately deep offshore environment. The numerical simulations account for the effects of spiral cold forming process and their material behavior, with emphasis on their compressive strain capacity under bending and pressure loading conditions, extending the work presented in [13] [14].…”
Section: Introductionmentioning
confidence: 89%
“…The paper is aimed at examining numerically the effect of manufacturing process on the structural (buckling) performance of spiral welded pipes, used in demanding onshore applications, and in moderately deep offshore environment. The numerical simulations account for the effects of spiral cold forming process and their material behavior, with emphasis on their compressive strain capacity under bending and pressure loading conditions, extending the work presented in [13] [14].…”
Section: Introductionmentioning
confidence: 89%
“…Past research (Karamanos 1996;Diamanti et al 2011;Papadaki et al 2018) suggests that the effect of typical operating pressure on the elastic stiffness of pressure vessels is negligible and was thus disregarded in the structural model developed for estimating the seismic response of the process tower. The tower is 30m high, having an internal diameter equal to 2.6 m. The shell thickness of the tower was defined on the basis of the internal pressure and not its buckling strength.…”
Section: Steel Process Towermentioning
confidence: 99%
“…Spirally welded pipes, or also known as "HSAW" pipes, have become industrially remarkable for hydrocarbon transport under high pressure [12,13]. Metallurgical structure improvements and mechanical performance enhancement, as well as developments in the production process, have further increased the utilization of such pipes [13]. It is a more economical and effective method in the production of thin-walled and large-diameter pipes.…”
Section: Introductionmentioning
confidence: 99%