Method of repairing a discontinuity on a tube by welding
First Claim
Patent Images
1. A method for expanding the operating life of a tube having a discontinuity extending at least part way through its wall thickness comprising the steps of:
- melting at least about 40% of the wall thickness of a portion of said tube while in a vessel in the area of said discontinuity to create a weld pool which comes in contact with said discontinuity and which reforms at least a portion of said discontinuity;
adding an alloying material to said weld pool; and
allowing said weld pool to cool and solidify.
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Accused Products
Abstract
The wall of a pressure vessel tube having cracks or other discontinuities is repaired by localized melting with the addition of an alloying material. The melting reforms or eliminates the discontinuity while the alloying material improves the physical and chemical properties of the reformed tube wall. The alloying material may be added as an insert or as a weld wire. The insert may be melted in only its center section to ensure that the entire weld is properly alloyed. Sections of the insert which are not melted may be expanded to be in intimate contact with the tube. The weld wire feed means may be integral with the welding head. A post-weld stress relief process may be applied to the welded area to reduce residual stress generated by the welding operation.
77 Citations
20 Claims
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1. A method for expanding the operating life of a tube having a discontinuity extending at least part way through its wall thickness comprising the steps of:
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melting at least about 40% of the wall thickness of a portion of said tube while in a vessel in the area of said discontinuity to create a weld pool which comes in contact with said discontinuity and which reforms at least a portion of said discontinuity; adding an alloying material to said weld pool; and allowing said weld pool to cool and solidify. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method for expanding the operating life of a tube having a discontinuity extending at least part way through its wall thickness, comprising the steps of:
melting a portion of said tube in the area of said discontinuity to create a weld pool which comes in contact with said discontinuity and which reforms at least a portion of said discontinuity;
adding an alloying material to said weld pool;
allowing said weld pool to cool and solidify;
analyzing the growth rate of said discontinuity before and after the alloying step; and
determining the operating life of the tube based upon a comparison of the discontinuity growth rate.
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9. A method for extending the operating life of a tube having a discontinuity extending at least part way through its wall thickness comprising the steps of:
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positioning an insert of said alloying material adjacent said inside surface of said tube; melting a portion of said tube, including melting a portion of said insert and said portion of the inside surface of said tube together, in the area of said discontinuity to create a weld pool which comes in contact with said discontinuity and which reforms at least a portion of said discontinuity; adding an alloying material to said weld pool; allowing said weld pool to cool and solidify; and
then expanding said insert to be in essentially full contact with said tube after the step of melting. - View Dependent Claims (10)
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11. A method for the repair of a tube having a discontinuity extending at least part way through its wall thickness, the method comprising the steps of:
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removing a vessel having a tube therein from service, the tube having a discontinuity extending at least part way through its wall thickness; inserting a welding head into said tube while said tube is in said vessel; operating said welding head to melt at least about 40% of the wall thickness of a portion of said tube in the area of said discontinuity to create a weld pool which comes in contact with said discontinuity and which reforms at least a portion of said discontinuity; operating a weld wire feeding means to deliver an alloying weld wire into said weld pool, thereby melting said wire and said portion of said tube together; allowing said weld pool to cool and solidify; and performing a nondestructive examination of said cooled and solidified weld pool. - View Dependent Claims (12, 13, 14, 15)
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16. A method for the repair of a tube having a discontinuity extending at least part way through its wall thickness, the method comprising the steps of:
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providing a tube comprised of nickel-base Alloy 600; providing a alloying weld wire comprised of a nickel-base alloy of the group Alloy 690 and AWS Class ERNiCr-3; inserting a welding head into said tube; operating said welding head to melt a portion of said tube in the area of said discontinuity to create a weld pool which comes in contact with said discontinuity and which reforms at least a portion of said discontinuity; operating a weld wire feeding means to deliver an alloying weld wire into said weld pool, thereby melting said wire and said portion of said tube together; and allowing said weld pool to cool and solidify.
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17. A method for expanding the operating life of a tube having a discontinuity extending at least part way through its wall thickness, comprising the steps of:
- melting a portion of a tube comprised of nickel-base Alloy 600 in the area of said discontinuity to create a weld pool which comes in contact with said discontinuity and which reforms at least a portion of said discontinuity;
adding an alloying material composed of a nickel-base alloy of the group Alloy 690 and AWS Class ERNiCr-3 to said weld pool; and
allowing said weld pool to cool and solidify.
- melting a portion of a tube comprised of nickel-base Alloy 600 in the area of said discontinuity to create a weld pool which comes in contact with said discontinuity and which reforms at least a portion of said discontinuity;
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18. A method for expanding the operating life of a tube having a discontinuity extending at least part way through its wall thickness, comprising the steps of:
- melting a portion of said tube in the area of said discontinuity to create a weld pool which comes in contact with said discontinuity and which reforms at least a portion of said discontinuity;
adding a chromium-containing alloying material to said weld pool for raising the chromium concentration of said tube portion in said area contacting said discontinuity; and
allowing said weld pool to cool and solidify. - View Dependent Claims (19, 20)
- melting a portion of said tube in the area of said discontinuity to create a weld pool which comes in contact with said discontinuity and which reforms at least a portion of said discontinuity;
Specification
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Current AssigneeWestinghouse Electric Company LLC (Brookfield Asset Management Incorporated)
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Original AssigneeWestinghouse Electric Company LLC (Brookfield Asset Management Incorporated)
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InventorsSathi, Semur P., LaGally, Hermann O., Kozak, Larry M.
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Primary Examiner(s)Evans, Geoffrey S.
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Application NumberUS08/524,667Time in Patent Office1,061 DaysField of Search219/121.63, 219/121.64, 219/59.1, 219/60 R, 219/60.2, 219/137 R, 219/137 WM, 219/121.65, 219/121.66, 326/260US Class Current219/121.64CPC Class CodesB23K 26/28 of curved planar seamsB23P 6/00 Restoring or reconditioning...F28F 11/00 Arrangements for sealing le...F28F 2275/067 by laser welding
