Electrical assembly having a fibrous conductive interface between a conductive composite component and a metallic component

I claim: 1. An electrical assembly, comprising: a first element formed of a conductive composite material containing a plurality of conductive fibers; a second element formed of sheet metal; and a plurality of metallic filaments, each metallic filament in the plurality of metallic filaments separately having an attached end mechanically and electrically bonded to the second element and each metallic filament in the plurality of metallic filaments separately having an unattached end extending from the second element into the first element, wherein the conductive composite material forming the first element completely surrounds and completely encloses the unattached end of each metallic filament. 2. The electrical assembly, according to claim 1 , wherein the conductive composite material forming the first element partially encloses a portion of the second element. 3. The electrical assembly, according to claim 1 , wherein a spacing of the attached end one to another is less than a spacing of the unattached end one to another. 4. The electrical assembly, according to claim 1 , wherein one metallic filament in the plurality of metallic filaments is substantially parallel to another metallic filament. 5. The electrical assembly, according to claim 1 , wherein the attached ends of the plurality of metallic filaments are sonically welded to the second element. 6. The electrical assembly, according to claim 1 , wherein a thickness of each of the plurality of metallic filaments is in a range of one to three times a thickness of a conductive fiber in the plurality of conductive fibers. 7. An electrical connector assembly, comprising: a connector body formed of a conductive composite material containing a plurality of conductive fibers; an electromagnetic interference (EMI) shield formed of sheet metal; and a plurality of metallic filaments, each metallic filament in the plurality of metallic filaments having an attached end mechanically and electrically bonded to the EMI shield and each metallic filament in the plurality of metallic filaments separately having an unattached end extending from the EMI shield into the connector body, wherein the conductive composite material forming the connector body completely surrounds and completely encloses the unattached end of each metallic filament. 8. The electrical connector assembly, according to claim 7 , wherein the conductive composite material forming the connector body partially encloses a portion of the EMI shield. 9. The electrical connector assembly, according to claim 7 , wherein a spacing of each attached end one to another is less than a spacing of each unattached end one to another. 10. The electrical connector assembly, according to claim 7 , wherein one metallic filament in the plurality of metallic filaments is substantially parallel to another metallic filament. 11. The electrical connector assembly, according to claim 7 , wherein the attached ends of the plurality of metallic filaments is sonically welded to the EMI shield. 12. The electrical connector assembly, according to claim 7 , wherein a thickness of each of the plurality of metallic filaments is in a range of one to three times a thickness of a conductive fiber in the plurality of conductive fibers.