Method of manufacturing electrical cable, and resulting product, with reduced required installation pulling force

That which is claimed: 1. A method of manufacturing a thermoplastic high heat-resistant nylon-coated (THHN) electrical cable having a reduced installation pulling force through a conduit, the method comprising: introducing pellets comprising polymeric nylon material to an extrusion head; advancing at least one conductor wire through the extrusion head; introducing polyvinyl chloride (PVC) into the extrusion head; melting the PVC into a molten state in the extrusion head; melting the nylon pellets into a molten state in the extrusion head; extruding the molten PVC around the conductor wire to form a first layer of a sheath; extruding the molten nylon around the first layer of the sheath to form a second layer of the sheath; and, introducing a pulling lubricant into the THHN cable manufacturing process at at least one stage selected from; compounding the pulling lubricant with the polymeric nylon material to form lubricated pellets from which the sheath is to be formed, mixing the pulling lubricant with the polymeric nylon pellets before introduction of the mixture into the extrusion process, or introducing the pulling lubricant at a point after the polymeric nylon material has been introduced into the extrusion head. 2. The method of manufacturing a thermoplastic high heat-resistant nylon-coated (THHN) electrical cable according to claim 1 , wherein the pulling lubricant is introduced at a point after the polymeric nylon material has been introduced into the extrusion head, and wherein the step of introducing the pulling lubricant at a point after the polymeric nylon material has been introduced into the extrusion head further comprises introducing the pulling lubricant directly into the extrusion head. 3. The method of manufacturing a thermoplastic high heat-resistant nylon-coated (THHN) electrical cable according to claim 1 , wherein the pulling lubricant comprises silicone. 4. The method of manufacturing a thermoplastic high heat-resistant nylon-coated (THHN) electrical cable according to claim 3 , wherein the pulling lubricant comprises a high molecular weight silicone based pulling lubricant. 5. The method of manufacturing a thermoplastic high heat-resistant nylon-coated (THHN) electrical cable according to claim 1 , wherein introducing the pulling lubricant at least in part causes the resulting THHN electrical cable to have an average coefficient of friction against an interior surface of a PVC conduit setup of less than about 0.2. 6. The method of manufacturing a thermoplastic high heat-resistant nylon-coated (THHN) electrical cable according to claim 3 , wherein the pulling lubricant comprises a low molecular weight silicone based pulling lubricant. 7. The method of manufacturing a thermoplastic high heat-resistant nylon-coated (THHN) electrical cable according to claim 1 , wherein the at least one conductor comprises a plurality of grouped conductors. 8. The method of manufacturing a thermoplastic high heat-resistant nylon-coated (THHN) electrical cable according to claim 1 , wherein the at least one conductor is a large gauge conductor. 9. The method of manufacturing a thermoplastic high heat-resistant nylon-coated (THHN) electrical cable according to claim 8 , wherein the at least one conductor comprises an AWG 4/0 conductor. 10. The method of manufacturing a thermoplastic high heat-resistant nylon-coated (THHN) electrical cable according to claim 1 , wherein the THHN electrical cable has a round profile. 11. The method of manufacturing a thermoplastic high heat-resistant nylon-coated (THHN) electrical cable according to claim 1 , wherein melting the nylon pellets in the extrusion head comprises causing the nylon polymer to reach at least about 500° F. 12. A THHN electrical cable manufactured according to the method of claim 1 .