EMF-shielded plastic prepreg hybrid structural component

The invention claimed is: 1. An EMF-screening structural component comprising: at least a first organic sheet component comprising: a fabric layer; and at least one of: carbon fibres and metal fibres embedded in a first thermoplastic; and a second polymeric component integrally connected with the first sheet component, the second polymeric component comprising at least one of: carbon, metal fibres, and carbon nanotubes embedded in a second polymer; wherein together: the first organic sheet component comprises a first amount of the at least one of the carbon fibres and the metal fibres, and the second polymeric component comprises a second amount of the least one of: the carbon, the metal fibres, and the carbon nanotubes sufficient to provide the structural component with a predetermined level of EMF screening and damping of 50 db in the frequency range from 100 MHz to 1 GHz in accordance with ASTM D-4935-89. 2. The structural component of claim 1 , wherein the second polymeric component is an electrically conductive thermoplastic wherein the second amount of the at least one of: the carbon, the metal fibres, and the carbon nanotubes is sufficient to provide the second thermoplastic material with a volume resistance of up to 10 3 Ω cm to ISO 3915 and a surface resistance of up to 10 3 Ω. 3. The structural component of claim 2 , wherein: the first organic sheet component comprises a fiber content of 30 to 60 vol % of the volume of the sheet, wherein the fiber content comprises fibres of the fabric and the at least one of the carbon fibres and the metal fibres, and the at least one of the carbon fibres and the metal fibres comprise 0.1 to 30 vol % of the fiber content; and the second polymeric component has a filler content of 0.1 to 50 vol % of the volume of the second polymeric component, wherein the filler content comprises the at least one of: the carbon, the metal fibres, and the carbon nanotubes, and the at least one of: the carbon, the metal fibres, and the carbon nanotubes comprise 0.1 to 30 vol % of the filler content. 4. The structural component of claim 1 , wherein the second polymeric component is integrally molded onto a preformed first organic sheet component. 5. The structural component of claim 4 , wherein the first thermoplastic and the second polymer are the same and are selected from polyamides, polysulfone, polyphenylene sulphide, polyphthalamides, poly(arylenethersulfones), polyesters, polypropylene (PP), polyethylene (PE) or polyimide (PI). 6. The structural component of claim 5 , wherein the first thermoplastic and the second polymer are aromatic polyamide. 7. The structural component of claim 4 , wherein the structural component has portions that cannot be formed by shaping of the first organic layer, and the portions that cannot be formed by shaping of the first organic layer comprise the second polymeric component. 8. The structural component of claim 3 , wherein: the second polymeric component is integraliy molded onto a preformed first organic sheet component; and the structural component has portions that cannot be formed by shaping of the first organic layer, and the portions that cannot be formed by shaping of the first organic layer comprise the second polymeric component. 9. The structural component of claim 8 , wherein: the fabric layer comprises at least one of: woven fibres, laid fibres, and uni-directional fibres; and the fibres comprise at least one of: glass fibres and aramid fibres. 10. The structural component of claim 9 , wherein: the fabric layer comprises unidirectional glass fibres, and the at least one of; carbon fibres and metal fibres, comprises steel fibres. 11. The structural component of claim 9 , wherein the first organic sheet component comprises a plurality of fiber layers, and at least a portion of the fibres are oriented at right angles to one another. 12. The structural component of claim 1 , wherein the first organic sheet component comprises a plurality of fabric layers interspersed with layers of fibrous filler, and the fibrous filler comprises the at least one of the carbon fibres and the metal fibres. 13. The structural component of claim 12 , wherein the fibrous filler further comprises glass fibres, or aramid fibres, or a mixed thereof. 14. The structural component of claim 10 , wherein: the metal fibres comprise 10 to 30 vol % of the fiber content of the first organic sheet component; the first organic sheet component comprises a plurality of fiber layers, and at least a portion of the fibres are oriented at right angles to one another; the plurality of fabric layers are interspersed with layers of fibrous filler, and the fibrous filler comprises the at least one of the carbon fibres and the metal fibres, and the fibrous filler further comprises glass fibres, or aramid fibres, or a mixed thereof; the first organic sheet component has a thickness of 0.3 to 6 mm; and the structural component has a shell-like form or cylindrical form or box-like form and comprises a housing for electronic components. 15. A battery housing with EMF screening, the housing comprising a shell-like form of a structural material comprising: at least a first shaped-organic sheet component comprising: a fabric layer; and at least one of: carbon fibres and metal fibres embedded in a first thermoplastic, wherein portions of the housing cannot be formed by shaping of the first organic layer, and the portions that cannot be formed by shaping of the first organic layer comprise a second polymeric component integrally connected with the first sheet component, the second polymeric component comprising at least one of: carbon, metal fibres, and carbon nanotubes embedded in a second polymer; wherein together: the first organic sheet component comprises a first amount of the at least one of the carbon fibres and the metal fibres, and the second polymeric component comprises a second amount of the least one of: the carbon, the metal fibres, and the carbon nanotubes sufficient to provide the structural component with a predetermined level of EMF screening and damping of 50 db in the frequency range from 100 MHz to 1 GHz in accordance with ASTM D-4935-89. 16. The structural component of claim 15 , wherein the second polymeric component is an electrically conductive thermoplastic wherein the second amount of the at least one of: the carbon, the metal fibres, and the carbon nanotubes is sufficient to provide the second thermoplastic material with a volume resistance of up to 10 3 Ω cm to ISO 3915 and a surface resistance of up to 10 3 Ω. 17. The housing according to claim 16 , wherein: the first organic sheet component comprises a fiber content of 30 to 60 vol % of the volume of the sheet, wherein the fiber content comprises fibres of the fabric and the at least one of the carbon fibres and the metal fibres, and the at least one of the carbon fibres and the metal fibres comprise 0.1 to 30 vol % of the fiber content; and the second polymeric component has a filler content of 0.1 to 50 vol % of the volume of the second polymeric component, wherein the filler content comprises the at least one of; the carbon, the metal fibres, and the carbon nanotubes, and the at least one of: the carbon, the metal fibres, and the carbon nanotubes comprise 0.1 to 30 vol % of the filler content.