Composite core for electrical transmission cables

What is claimed is: 1. An electrical transmission cable core, wherein the core extends in a longitudinal direction and comprises: at least one rod that contains a continuous fiber component comprising a plurality of consolidated thermoplastic impregnated rovings, the rovings containing continuous carbon fibers oriented in the longitudinal direction and a thermoplastic matrix that embeds the fibers, wherein the continuous carbon fibers constitute from about 25 wt. % to about 80 wt. % of the rod and the thermoplastic matrix constitutes from about 20 wt. % to about 75 wt. % of the rod; and a capping layer surrounding the continuous fiber component, wherein the capping layer has about 1 wt. % or less of continuous carbon fibers; wherein the rod has a minimum flexural modulus of about 10 Gigapascals, and wherein the rod has a tensile modulus of elasticity of about 50 Gigapascals or more. 2. The core of claim 1 , wherein the continuous fibers have a ratio of ultimate tensile strength to mass per unit length of greater than about 1,000 Megapascals per gram per meter. 3. The core of claim 1 , wherein the thermoplastic matrix includes a polyarylene sulfide. 4. The core of claim 3 , wherein the polyarylene sulfide is polyphenylene sulfide. 5. The core of claim 1 , wherein the capping layer comprises a polyether ether ketone. 6. The core of claim 1 , wherein the continuous fibers constitute from about 30 wt. % to about 75 wt. % of the rod. 7. The core of claim 1 , wherein the rod has a void fraction of about 3% or less. 8. The core of claim 1 , wherein the rod has a flexural modulus of from about 15 to about 200 Gigapascals. 9. The core of claim 1 , wherein the rod has a flexural modulus of from about 20 to about 150 Gigapascals. 10. The core of claim 1 , wherein the rod has an ultimate tensile strength of about 300 Megapascals or more. 11. The core of claim 1 , wherein the rod has an ultimate tensile strength of from about 400 Megapascals to about 5,000 Megapascals. 12. The core of claim 1 , wherein the rod has a linear thermal expansion coefficient in the longitudinal direction in a range from about −0.25 to about 5 ppm per ° C. 13. The core of claim 1 , wherein the capping layer contains a thermoplastic polymer having a dielectric strength of at least about 2 KV/mm. 14. The core of claim 1 , wherein the capping layer comprises at least one additive comprising one of a mineral reinforcing agent, a lubricant, a flame retardant, a blowing agent, a foaming agent, an ultraviolet light resistant agent, a thermal stabilizer, or a pigment. 15. An electrical transmission cable core, wherein the core extends in a longitudinal direction and comprises: at least one rod that contains a continuous fiber component comprising a plurality of consolidated thermoplastic impregnated rovings, the rovings containing continuous fibers oriented in the longitudinal direction and a thermoplastic matrix that embeds the fibers, the thermoplastic matrix including a polyarylene sulfide, wherein the continuous fibers constitute from about 25 wt. % to about 80 wt. % of the rod and the thermoplastic matrix constitutes from about 20 wt. % to about 75 wt. % of the rod; and a capping layer surrounding the continuous fiber component, wherein the capping layer has about 1 wt. % or less of continuous fibers; wherein the rod has a flexural modulus of from about 15 to about 200 Gigapascals, and wherein the rod has a void fraction of about 3% or less. 16. The core of claim 15 , wherein the continuous fibers have a ratio of ultimate tensile strength to mass per unit length of greater than about 1,000 Megapascals per gram per meter. 17. The core of claim 15 , wherein the continuous fibers are carbon fibers. 18. The core of claim 15 , wherein the polyarylene sulfide is polyphenylene sulfide. 19. The core of claim 15 , wherein the capping layer comprises a polyether ether ketone. 20. The core of claim 15 , wherein the continuous fibers constitute from about 30 wt. % to about 75 wt. % of the rod. 21. The core of claim 15 , wherein the rod has a flexural modulus of from about 20 to about 150 Gigapascals. 22. The core of claim 15 , wherein the rod has an ultimate tensile strength of about 300 Megapascals or more. 23. The core of claim 15 , wherein the rod has an ultimate tensile strength of from about 400 Megapascals to about 5,000 Megapascals. 24. The core of claim 15 , wherein the rod has a tensile modulus of elasticity of about 50 Gigapascals or more. 25. The core of claim 15 , wherein the rod has a linear thermal expansion coefficient in the longitudinal direction in a range from about −0.25 to about 5 ppm per ° C. 26. The core of claim 15 , wherein the rod has a diameter of from about 0.1 to about 50 millimeters. 27. The core of claim 15 , wherein the capping layer contains a thermoplastic polymer having a dielectric strength of at least about 2 KV/mm. 28. The core of claim 15 , wherein the capping layer comprises at least one additive comprising one of a mineral reinforcing agent, a lubricant, a flame retardant, a blowing agent, a foaming agent, an ultraviolet light resistant agent, a thermal stabilizer, or a pigment. 29. An electrical transmission cable core, wherein the core extends in a longitudinal direction and comprises: at least one rod that contains a continuous fiber component comprising a plurality of consolidated thermoplastic impregnated rovings, the rovings containing continuous fibers oriented in the longitudinal direction and a thermoplastic matrix that embeds the fibers, wherein the continuous fibers constitute from 30 wt. % to 75 wt. % of the rod and the thermoplastic matrix constitutes from 25 wt. % to 70 wt. % of the rod; and a capping layer surrounding the continuous fiber component, wherein the capping layer has 1 wt. % or less of continuous fibers; wherein the rod has a flexural modulus of from 15 to 200 Gigapascals and an ultimate tensile strength of 300 Megapascals or more; wherein the rod has a diameter of from 0.1 to 50 millimeters. 30. The core of claim 29 , wherein the continuous fibers have a ratio of ultimate tensile strength to mass per unit length of greater than 1,000 Megapascals per gram per meter. 31. The core of claim 29 , wherein the thermoplastic matrix includes a polyarylene sulfide. 32. The core of claim 31 , wherein the polyarylene sulfide is polyphenylene sulfide. 33. The core of claim 29 , wherein the capping layer comprises a polyether ether ketone. 34. The core of claim 29 , wherein the rod has a void fraction of 3% or less. 35. The core of claim 29 , wherein the rod has a flexural modulus of from 20 to 150 Gigapascals. 36. The core of claim 29 , wherein the rod has an ultimate tensile strength of from 400 Megapascals to 5,000 Megapascals. 37. The core of claim 29 , wherein the rod has a tensile modulus of elasticity of 50 Gigapascals or more. 38. The core of claim 29 , wherein the rod has a linear thermal expansion coefficient in the longitudinal direction in a range from −0.25 to 5 ppm per ° C. 39. The core of claim 29 , wherein the capping layer contains a thermoplastic polymer having a dielectric strength of at least 2 KV/mm.