Composite Wrapped Steel Tubes for Use in Umbilicals

We claim: 1 . An umbilical cable, comprising: a. an outer umbilical sheath; b. a conduit disposed within the outer umbilical sheath, the conduit comprising: i. a metallic inner wall; and ii. a carbon fiber composite outer wall disposed substantially continuously about an outer surface of the metallic inner wall; c. a conductor disposed within the signal conduit; and d. a filler disposed proximate the conduit within the outer umbilical sheath. 2 . The umbilical cable of claim 1 , wherein the metallic inner wall comprises a super duplex material. 3 . The umbilical cable of claim 1 , wherein the metallic inner wall comprises a lean duplex material. 4 . The umbilical cable of claim 1 , wherein the metallic inner wall comprises a hyper duplex material. 5 . The umbilical cable of claim 1 , wherein the metallic inner wall comprises steel. 6 . The umbilical cable of claim 1 , wherein the conduit further comprises: a. an end; and b. a welded, reinforced interface disposed about the end. 7 . The umbilical cable of claim 1 , wherein the conductor comprises an electrical conductor. 8 . The umbilical cable of claim 7 , wherein the electrical conductor comprises a low voltage electrical conductor. 9 . The umbilical cable of claim 7 , wherein the electrical conductor comprises a medium voltage electrical conductor. 10 . The umbilical cable of claim 1 , wherein the conductor comprises a fiber optic conductor. 11 . A method of manufacturing an umbilical cable, comprising: a. providing a predetermined length of a conduit to a coating station, the conduit comprising a metal sheath; b. coating an outer surface of the conduit with a carbon fiber in the coating station to create a substantially continuous composite outer wall disposed about the outer surface of the conduit; c. taking up the coated umbilical conduit from the coating station; and d. disposing the coated conduit within an outer umbilical sheath. 12 . The method of manufacturing an umbilical cable of claim 11 , further comprising disposing a conductor within the coated conduit. 13 . The method of manufacturing an umbilical cable of claim 11 , further comprising disposing a filler within the outer umbilical sheath proximate the conduit. 14 . The method of manufacturing an umbilical cable of claim 11 , further comprising: a. providing the conduit with a welded cable interface at an end of the conduit; and b. reinforcing the welded cable interface. 15 . The method of manufacturing an umbilical cable of claim 11 , wherein the metal sheath comprises steel. 16 . The method of manufacturing an umbilical cable of claim 11 , wherein the metal sheath comprises stainless steel. 17 . The method of manufacturing an umbilical cable of claim 11 , wherein the conduit metal further comprises at least one of a super duplex material, a lean duplex material, or a hyper duplex material. 18 . The method of manufacturing an umbilical cable of claim 11 , wherein disposing the coated conduit within the outer umbilical sheath comprises disposing a plurality of coated conduits within the outer umbilical sheath. 19 . The method of manufacturing an umbilical cable of claim 11 , wherein disposing the coated conduit within an outer umbilical sheath comprises disposing a plurality of coated conduits within an outer umbilical sheath.