Slickline manufacturing techniques

We claim: 1. A method of manufacturing a jacketed metal line, the method comprising: roughening an outer surface of a metal core of the line; applying an insulating polymer layer to the roughened metal core via a non-compression technique, wherein the applying comprises passing the roughened metal core through a chamber with a vacuum and exposing the roughened metal core to a polymer, and wherein the vacuum draws the polymer onto the roughened metal core; exposing the polymer insulated roughened metal core to a heat source for at least partially melting the polymer layer; running the melted polymer insulated roughened metal core through a set of shaping rollers; thereby forming a substantially circular profile and removing at least some air trapped between the polymer and the roughened metal core; and using compression extrusion to extrude an additional polymer jacket directly upon the polymer layer, wherein the additional polymer jacket comprises carbon fibers, and wherein from 0.5 percent to 30 percent of the total volume of the additional polymer jacket is short-fiber filled polyether ether ketone (SFF-PEEK). 2. The method of claim 1 further comprising providing a tie layer between the roughened metal core and the polymer layer, between the polymer layer and the additional polymer jacket, or both. 3. The method of claim 1 further comprising controlling the cooling of the polymer insulated roughened metal core. 4. The method of claim 1 wherein the roughening of the outer surface is achieved by one of arc spraying, abrasive blasting, and electrolytic plasma coating. 5. The method of claim 4 wherein the arc spraying comprises: charging wires of metal based material; and spraying molten droplets of the charged metal based material onto the core for the roughening. 6. The method of claim 4 wherein the abrasive blasting comprises: sandblasting the core with a fine-grit medium for the roughening. 7. The method of claim 4 wherein the electrolytic plasma coating comprises: charging the metal core; and running the core through a liquid bath of oppositely charged metals for bonding to the surface of the charged core for the roughening. 8. A method of manufacturing a jacketed metal line, the method comprising: charging a metal core of the line; powder coating the charged metal core with an oppositely charged insulating polymer; exposing the polymer insulated metal core to a heat source for at least partially melting the polymer; running the melted polymer insulated metal core through a set of shaping rollers; thereby forming a substantially circular profile and removing at least some air trapped between the polymer and the metal core; and using compression extrusion to extrude an additional polymer jacket directly upon the polymer, wherein the additional polymer jacket comprises carbon fibers, and wherein from 0.5 percent to 30 percent of the total volume of the additional polymer jacket is short-fiber filled polyether ether ketone (SFF-PEEK). 9. A method of using a polymer jacketed metal line in a wellbore comprising: providing a polymer jacketed metal line, the metal line comprising a roughened metal core; a first non-compression applied polymer layer of between about 0.001 and about 0.010 inches about the roughened metal core, wherein the first non-compression applied polymer layer is applied by passing the roughened metal core through a chamber with a vacuum and exposing the roughened metal core to a polymer, and wherein the vacuum draws the polymer onto the roughened metal core, and wherein the applied polymer is heated and ran through a roller thereby forming a substantially circular profile and removing at least some air trapped between the polymer and the roughened metal core; a second compression applied polymer layer about the first polymer layer, wherein the second compression applied polymer layer comprises carbon fibers, and wherein from 0.5 percent to 30 percent of the total volume of the second polymer layer is short-fiber filled polyether ether ketone (SFF-PEEK); disposing the metal line in the wellbore; and performing at least one downhole application in the wellbore with the metal line. 10. The method of claim 9 wherein the line is one of slickline, cladded line, wire rope, armored cable, coiled tubing, casing, monitoring cable and a metallic tube. 11. The method of claim 9 wherein performing at least one downhole application in the wellbore comprises performing at least one of a sampling, fishing, clean-out, setting, stimulation, logging, perforating, and a mechanical services application. 12. The method of claim 9 further comprising a third polymer layer having reinforcing additive therein and positioned about the second polymer layer. 13. The method of claim 9 wherein at least one of the first polymer layer or the second polymer layer comprises a material selected from a group consisting of polyetheretherketone, a fluoropolymer and a polyolefin. 14. The method of claim 9 wherein the first polymer layer or the second polymer layer comprises a reinforcing additive, a bonding facilitating polymer additive, a virgin polymer, SFF- PEEK, Doped PEEK, or combinations thereof.