Claims
- 1. A method of producing hydrocarbons, said method comprising the step of using an offshore structure to facilitate production of said hydrocarbons, wherein said offshore structure supports at least one container suitable for containing a fluid used in either the production or processing of said hydrocarbons, said container having been constructed from materials comprising an ultra-high strength, low alloy steel containing less than 2.5 wt % nickel and having a tensile strength of at least about 900 MPa (130 ksi).
- 2. A method of reducing the weight of an offshore structure that includes at least one container suitable for containing a fluid used in either the production or processing of hydrocarbons, said method comprising the step of replacing said at least one container with a lighter-weight container suitable for containing said fluid, said lighter-weight container having been constructed from materials comprising an ultra-high strength, low alloy steel containing less than 2.5 wt % nickel and having a tensile strength of at least about 900 MPa (130 ksi).
- 3. A method of constructing an offshore structure, said method comprising the step of including at least one container suitable for containing a fluid used in either the production or processing of hydrocarbons, said at least one container having been constructed from materials comprising an ultra-high strength, low alloy steel containing less than 2.5 wt % nickel and having a tensile strength of at least about 900 MPa (130 ksi).
- 4. A method of producing hydrocarbons, said method comprising the step of using an offshore structure to facilitate production of said hydrocarbons, wherein said offshore structure comprises at least one structural member, said at least one structural member having been constructed from materials comprising an ultra-high strength, low alloy steel containing less than 2.5 wt % nickel and having a tensile strength of at least about 900 MPa (130 ksi).
- 5. A method of producing hydrocarbons, said method comprising the step of using an offshore structure to facilitate production of said hydrocarbons, wherein said offshore structure comprises at least one structural member selected from the group consisting of an I-beam, a tubular, a channel, a box, a box beam, a box girder, an angle, a bracket, an L-shaped member, a T-shaped member, a gusset, a plate, decking, and a blast wall, said at least one structural member having been constructed from materials comprising an ultra-high strength, low alloy steel containing less than 2.5 wt % nickel and having a tensile strength of at least about 900 MPa (130 ksi).
- 6. A method of reducing the weight of an offshore structure that includes at least one structural member, said method comprising the step of replacing said at least one structural member with a lighter-weight structural member, said lighter-weight structural member having been constructed from materials comprising an ultra-high strength, low alloy steel containing less than 2.5 wt % nickel and having a tensile strength of at least about 900 MPa (130 ksi).
- 7. A method of reducing the weight of an offshore structure that includes at least one structural member selected from the group consisting of an I-beam, a tubular, a channel, a box, a box beam, a box girder, an angle, a bracket, an L-shaped member, a T-shaped member, a gusset, a plate, decking, and a blast wall, said method comprising the step of replacing said at least one structural member with a lighter-weight structural member, said lighter-weight structural member having been constructed from materials comprising an ultra-high strength, low alloy steel containing less than 2.5 wt % nickel and having a tensile strength of at least about 900 MPa (130 ksi).
- 8. A method of constructing an offshore structure, said method comprising the step of including at least one structural member, said at least one structural member having been constructed from materials comprising an ultra-high strength, low alloy steel containing less than 2.5 wt % nickel and having a tensile strength of at least about 900 MPa (130 ksi).
- 9. A method of constructing an offshore structure, said method comprising the step of including at least one structural member selected from the group consisting of an I-beam, a tubular, a channel, a box, a box beam, a box girder, an angle, a bracket, an L-shaped member, a T-shaped member, a gusset, a plate, decking, and a blast wall, said at least one structural member having been constructed from materials comprising an ultra-high strength, low alloy steel containing less than 2.5 wt % nickel and having a tensile strength of at least about 900 MPa (130 ksi).
- 10. A method of constructing a ship, said method comprising the step of including at least one structural member, said at least one structural member having been constructed from materials comprising an ultra-high strength, low alloy steel containing less than 2.5 wt % nickel and having a tensile strength of at least about 900 MPa (130 ksi).
- 11. A method of constructing a ship that includes a hull, said method comprising the step of constructing said hull from materials comprising an ultra-high strength, low alloy steel containing less than 2.5 wt % nickel and having a tensile strength of at least about 900 MPa (130 ksi).
- 12. A method of reducing the weight of a ship that includes at least one structural member, said method comprising the step of replacing said at least one structural member with a lighter-weight structural member, said lighter-weight structural member having been constructed from materials comprising an ultra-high strength, low alloy steel containing less than 2.5 wt % nickel and having a tensile strength of at least about 900 MPa (130 ksi).
- 13. A method of reducing the weight of a ship that includes a hull, said method comprising the step of replacing said hull with a lighter-weight hull, said lighter-weight hull having been constructed from materials comprising an ultra-high strength, low alloy steel containing less than 2.5 wt % nickel and having a tensile strength of at least about 900 MPa (130 ksi).
- 14. A method of constructing a submarine vessel, said method comprising the step of constructing said vessel from materials comprising an ultra-high strength, low alloy steel containing less than 2.5 wt % nickel and having a tensile strength of at least about 900 MPa (130 ksi).
- 15. A method of reducing the weight of a submarine vessel that includes at least one structural member, said method comprising the step of replacing said at least one structural member with a lighter-weight structural member, said lighter-weight structural member having been constructed from materials comprising an ultra-high strength, low alloy steel containing less than 2.5 wt % nickel and having a tensile strength of at least about 900 MPa (130 ksi).
- 16. A method of reducing the weight of a submarine vessel that includes a hull, said method comprising the step of replacing said hull with a lighter-weight hull, said lighter-weight hull having been constructed from materials comprising an ultra-high strength, low alloy steel containing less than 2.5 wt % nickel and having a tensile strength of at least about 900 MPa (130 ksi).
Parent Case Info
[0001] This application claims the benefit of U.S. Provisional Application No. 60/333584, filed Nov. 27, 2001, and of U.S. Provisional Application No. 60/342204, filed Dec. 19, 2001.
Provisional Applications (2)
|
Number |
Date |
Country |
|
60333584 |
Nov 2001 |
US |
|
60342204 |
Dec 2001 |
US |