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Title: Method of manufacturing corona-resistant ethylene-propylene rubber insulated power cable, and the product thereof
Claims: What I claim as new and desire to secure by Letters Patent of the United States is: 1. A method of manufacturing electric power cable comprising an assemblage of a conductor with a composite covering thereabout including a dielectric insulation of a thermoset ethylene-propylene rubber compound, a semiconductive layer overlying the dielectric insulation, and an enclosing jacket of a thermoset polychloroprene, comprising the steps of: a. forming a dielectric insulating body of a curable ethylene-propylene rubber compound about a metallic electrical conductor, and curing the ethylene-propylene rubber of said insulating body; b. heating the cured ethylene-propylene rubber compound insulating body about the conductor to a temperature of at least about 200.degree.F; c. applying a vapor-permeable, semiconductive adhering coating over the surface of said cured and heated insulating body of ethylene-propylene rubber compound; d. applying a layer of semiconductive material overlying the coating adhered to the surface of the cured and heated insulating body; and e. forming an enclosing protective jacket of a heat-curable polymer surrounding the cable assemblage and heat curing the polymer. 2. A method of manufacturing electrical power cable comprising an assemblage of a conductor with a composite covering thereabout including a dielectric insulation of a thermoset ethylene-propylene rubber compound, a semiconductive layer overlying the dielectric insulation, and an enclosing jacket of a thermoset polychloroprene, comprising the steps of: a. forming a dielectric insulating body of a curable ethylene-propylene rubber compound about a metallic electrical conductor, and curing the ethylene-propylene rubber of said insulating body; b. heating the cured ethylene-propylene rubber compound insulating body about the conductor to a temperature of about 200.degree.F to about 300.degree.F for a period of at least about 12 hours; c. applying a vapor-permeable, semiconductive adhering coating over the surface of the cured and heated insulating body of the ethylene-propylene rubber compound; d. applying a layer of semiconductive material overlying the coating adhered to the surface of the cured and heated insulating body; and e. forming an enclosing protective jacket of a heat-curable polymer surrounding the cable assemblage, and heat curing the polymer. 3. The method of manufacturing electric power cable of claim 2, wherein the cured ethylene-propylene rubber compound insulating body is heated to a temperature of about 200.degree.F to about 300.degree.F for a period of about 24 hours to about 98 hours. 4. The method of manufacturing electrical power cable of claim 3, wherein the layer of semiconductive material overlying the coating adhered to the surface of the insulating body comprises a fabric impregnated with an elastomer containing an electro-conductive filler. 5. A method of manufacturing electric power cable comprising an assemblage of a conductor with a composite covering thereabout including a dielectric insulation of a thermoset ethylene-propylene rubber compound, a semiconductive layer overlying the dielectric insulation, and an enclosing jacket of a thermoset polychloroprene, comprising the steps of: a. forming a dielectric insulating body of a curable ethylene-propylene rubber compound about a metallic electrical conductor, and curing the ethylene-propylene rubber of said insulating body; b. heating the cured ethylene-propylene rubber compound insulating body about the conductor to a temperature of at least about 200.degree.F for a period of at least about 12 hours; c. applying a vapor-permeable, adhering coating comprising an ethylene-containing polymer and electro-conductive filler dispersed in a volatile solvent for the polymer over the surface of the cured and heated insulating body of ethylene-propylene rubber compound; d. applying a layer of semiconductive material overlying the coating adhered to the surface of the cured and heated insulating body; and e. forming an enclosing protective jacket of a heat-curable polymer surrounding the cable assemblage and heat curing the polymer. 6. The method of manufacturing electrical power cable of claim 5, wherein the cured ethylene-propylene rubber compound insulating body is heated to a temperature of about 200.degree.F to about 300.degree.F for a period of about 24 hours to about 98 hours. 7. The method of manufacturing electrical power cable of claim 6, wherein the layer of semiconductive material applied over the coating adhered to the surface of the cured and heated insulating body comprises a fabric impregnated with an elastomer containing an electro-conductive filler. 8. The method of manufacturing electrical power cable of claim 7, wherein the vapor-permeable coating adhered to the surface of the insulating body comprises a copolymer of ethylene-vinyl acetate and carbon black filler. 9. A method of manufacturing electric power cable comprising an assemblage of a conductor with a composite covering thereabout including a dielectric insulation of a thermoset ethylene-propylene rubber compound, a semiconductive layer overlying the dielectric insulation, and an enclosing jacket of a thermoset polychloroprene, comprising the steps of: a. forming a dielectric insulating body of a curable ethylene-propylene rubber compound about a metallic electrical conductor, and curing the ethylene-propylene rubber of said insulating body; b. heating the cured ethylene-propylene rubber compound insulating body about the conductor to a temperature of about 200.degree.F to about 300.degree.F for a period of at least about 24 hours; c. applying a vapor-permeable, adhering coating comprising a polymeric material and an electro-conductive filler over the surface of the cured and heated insulating body of ethylene-propylene rubber compound; d. applying a layer of semiconductive material overlying the coating adhered to the surface of the cured and heated insulating body; and e. forming an enclosing protective jacket of a curable polychloroprene surrounding the cable assemblage and heat curing the polychloroprene. 10. The method of manufacturing electrical power cable of claim 9, wherein the layer of semiconductive material comprises a nylon polyamide fabric impregnated with butyl rubber. 11. The method of manufacturing electrical power cable of claim 10, wherein the vapor-permeable, adhering coating comprising and ethylene-containing polymer and electro-conductive filler dispersed in a volatile solvent for the polymer, and is applied over the surface of the cured and heated insulating body of ethylene-propylene rubber whereby it resides intermediate said surface and the layer of overlying semiconductive material. 12. A method of manufacturing electrical power cable comprising an assemblage of a conductor with a composite covering thereabout including a dielectric insulation of a thermoset ethylene-propylene rubber compound, a semiconductive layer overlying the dielectric insulation, and an enclosing jacket of a thermoset polychloroprene, comprising the steps of: a. preparing a curable ethylene-propylene rubber compound containing about 2.5 to about 3.5 parts by weight of peroxide curing agent per 100 parts by weight of ethylene-propylene rubber and up to about 8 parts by weight of petrolatum per 100 parts by weight of ethylene-propylene rubber, forming a dielectric insulating body of said curable ethylene-propylene rubber compound about a metallic electrical conductor and curing the ethylene-propylene rubber of said insulating body; b. heating the cured ethylene-propylene rubber compound insulating body about the conductor to a temperature of at least about 200.degree.F for a period of at least about 24 hours; c. applying a vapor-permeable coating comprising an ethylenecontaining polymer and electro-conductive filler dispersed in a volatile solvent for the polymer over the surface of the cured and heated insulating body of ethylene-propylene rubber compound; d. applying a layer of semiconductive material overlying the coated surface of the cured and heated insulating body; and e. forming an enclosing protective jacket of a curable polychloroprene surrounding the cable assemblage and heat curing the polychloroprene. 13. The method of manufacturing electrical power cable of claim 12, wherein the cured ethylene-propylene rubber compound insulating body is heated to a temperature of about 200.degree.F to about 300.degree.F for a period of about 24 hours to about 98 hours. 14. The method of manufacturing electrical power cable of claim 13, wherein the vapor-permeable coating comprises a copolymer of ethylene-vinyl acetate and carbon black filler. 15. The method of manufacturing electrical power cable of claim 14, wherein the layer of semiconductive material applied over the coated surface of the cured and heated insulated body comprises a nylon polyamide fabric impregnated with a butyl rubber elastomer containing carbon black filler. Other info: Inventors: Wahl, Ralph E. (Trumbull, CT, US) Application Number: 543335 Filing Date: 1975-01-23 Publication_date: 1976-01-27 Assignee: General Electric Company (New York, NY) Primary Class(es): 156/56 174/110AR, 174/120SC, 427/118, 427/120, 427/388.2 Other Classes: US Patent Ref:
Other Refs: Primary Examiner: Drummond, Douglas J. Assistant Examiner: Simmons, David A. Attorney: Simkins; Raymond G., Schlamp; Philip L., Nauhauser; Frank L. |
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