METHOD OF WELDING DUPLEX STAINLESS STEEL STRIP FOR THE PRODUCTION OF AN ARMOURING LAYER OF A FLEXIBLE PIPE
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Accused Products
Abstract
The invention relates to a method of providing a duplex stainless steel strip for an armouring layer of a flexible pipe, said method comprising
- providing at least two duplex stainless steel pieces each having an end-face,
- welding said end-faces of said two pieces of duplex stainless steel together to form a welded interface section using resistance welding, such as dual upset welding or flash welding, and
- providing a controlled cooling of said welded interface section.
The duplex stainless steel strip should preferably be heated to a temperature of at least about 1100° C., preferably at least about 1200° C., such as at least about 1500° C. in said interface section, and the controlled cooling of said welded interface section preferably comprises prolonging the cooling of the interface section preferably at least for the cooling from about 800° C. to about 600° C., more preferably at least for the cooling from about 1100° C. to about 600° C.
37 Citations
53 Claims
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1-34. -34. (canceled)
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35. A method of providing a duplex stainless steel strip for an armouring layer of a flexible pipe, said method comprising
providing at least two duplex stainless steel pieces each having an end-face, welding said end-faces of said two pieces of duplex stainless steel together to form a welded interface section using resistance welding, and providing a controlled cooling of said welded interface section.
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36. A method as claimed in claim 35 wherein the duplex stainless steel pieces is in the form of oblong elements with a substantially identical cross-sectional profile, the method comprising welding the duplex stainless steel pieces to each other in an end-to-end configuration
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37. A method as claimed in claim 35, wherein the resistance welding is a dual upset welding.
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38. A method as claimed in claim 37 wherein the dual upset welding comprises
bringing said two end faces in contact with each other heating at least a section of said two duplex stainless steel pieces by applying a current, the heated sections comprising said end-faces, and pressing said end-faces against each other.
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39. A method as claimed in claim 38, wherein the application of current is sufficient to raise the temperature of the duplex stainless steel pieces at their respective end-faces to at least soften said duplex stainless steel, preferably the application of current being sufficiently low to avoid burning off the duplex stainless steel.
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40. A method as claimed in claim 35, wherein the resistance welding is a flash welding, the method comprising
bringing said two end faces in contact with each other heating at least a section of said two duplex stainless steel pieces by applying a current, the heated sections comprising said end-faces, and optionally applying a pressure.
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41. A method as claimed in claim 40, wherein the application of current is in the form of a current density above about 25 A/mm2 surface to be welded, for a period of about 1 second or less.
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42. A method as claimed in claim 40 wherein the application of current is sufficiently high to at least burn off a surface layer of at least one of the abutting end-faces.
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43. A method as claimed in claim 35, wherein the welding comprises heating the duplex stainless steel strip at least in said interface section to a temperature of at least about 1100°
- C.
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44. A method as claimed in claim 35, wherein the controlled cooling of said welded interface section comprises prolonging the cooling of the interface section at least for the cooling from about 800°
- C. to about 600°
C.
- C. to about 600°
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45. A method as claimed in claim 35, wherein the controlled cooling is provided by applying heat to reduce the cooling rate in at least a part of the cooling of the interface section, the controlled cooling is provided by applying heat in the form of current to reduce the cooling rate in at least a part of the cooling of the interface section
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46. A method as claimed in claim 35, wherein the interface section is allowed to cool down to at least about 1200°
- C. without application of additional heat where after the cooling rate is controlled by applying heat, until the temperature of the interface section is about 600°
C. or less.
- C. without application of additional heat where after the cooling rate is controlled by applying heat, until the temperature of the interface section is about 600°
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47. A method as claimed in claim 35, wherein the interface of the temperature of the interface section is measured using Infra Red Pyrometer.
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48. A method as claimed in claim 35, wherein the duplex stainless steel strip is of a duplex comprising an austenite and ferrite mixture in the interval from about 40:
- 60 volume %, to about 60;
40 volume %.
- 60 volume %, to about 60;
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49. A method as claimed in claim 35, wherein the flexible pipe comprises an inner armouring layer (carcass) inside the inner liner, said inner armouring layer being provided by the duplex stainless steel strip(s).
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50. An apparatus for welding duplex stainless steel pieces together wherein the duplex stainless steel pieces each comprise an end part with an end-face, said apparatus comprises a pair of conductive platens capable of holding the duplex stainless steel pieces in their respective end parts, said pair of conductive platens being movable relative to each other and arranged to bring said end faces in contact with each other, and said pair of conductive platens being capable of heating said respective end parts of said duplex stainless steel pieces, wherein said apparatus further comprises a computer programmed to apply current through said conductive platens to heat said end parts to a sufficient level to weld said end-faces together to form an interface section, and allowing said interface section to cool under controlled conditions comprising applying current through said conductive platens during at least a part of the cooling of the interface section.
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51. An apparatus as claimed in claim 50 wherein said pair of conductive platens are to press said end faces together, said computer being programmed to press said end faces together during or after applying current through said conductive platens to heat said end parts to a sufficient level to weld said end-faces together to form the interface section.
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52. An apparatus as claimed in claim 50, wherein said computer is programmed to heating the duplex stainless steel strip at least in said interface section to a temperature of at least about 1100°
- C., said computer is programmed to allow the interface section to cool down to at least about 1200°
C., without application of additional heat where after the cooling rate is controlled by applying heat, until the temperature of the interface section is about 600°
C. or less.
- C., said computer is programmed to allow the interface section to cool down to at least about 1200°
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53. An apparatus as claimed in claim 50, wherein said apparatus comprises an Infra Red Pyrometer temperature sensor arranged to determine the temperature of an interface section.
Specification