Auto-adhesive display film comprising at least one electrically charged, dielectric layer ( 2 ). A screen layer ( 3 ), which is adapted to form a barrier to the electric field, is fixed to one surface of the dielectric layer ( 2 ). This display support does not attract dust particles and is specific
Auto-adhesive display film comprising at least one electrically charged, dielectric layer ( 2 ). A screen layer ( 3 ), which is adapted to form a barrier to the electric field, is fixed to one surface of the dielectric layer ( 2 ). This display support does not attract dust particles and is specifically adapted to be printed sheet by sheet.
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1. An auto-adhesive display film adapted to automatically adhere to smooth surfaces comprising at least one first dielectric layer, said layer comprising, on the one hand, a first surface, and, on the other hand, a second surface which is electrically charged, the display film being characterized in
1. An auto-adhesive display film adapted to automatically adhere to smooth surfaces comprising at least one first dielectric layer, said layer comprising, on the one hand, a first surface, and, on the other hand, a second surface which is electrically charged, the display film being characterized in that a first screen layer, adapted to form a barrier to the electric field, is fixed to at least, said first surface of the first dielectric layer. 2. Display film according to claim 1, wherein material constituting the first dielectric layer is selected from polypropylene and polyethylene terephthalate. 3. Display film according to claim 1, wherein the material constituting the first dielectric layer is a polymer comprising at least one atom of fluorine per monomer. 4. Display film according to claim 3, wherein the polymer is selected from polytetrafluoroethylene and polyfluoroethylenepropylene. 5. Display film according to claim 1, wherein the first screen layer is constituted of a material with a conductivity equal to at least 10 −10 s/cm. 6. Display film according to claim 1, wherein the material constituting the first screen layer is a metal. 7. Display film according to claim 1, wherein the material constituting the first screen layer comprises at least one transparent and conductive metallic oxide. 8. Display film according to claim 1, wherein the material of the first screen layer is selected from a polyaniline, a composite of polyaniline and methyl polymethacrylate, and a composite of polyaniline and polycarbonate. 9. Display film according to claim 1, wherein the first dielectric layer and the first screen layer are transparent. 10. Display film according to claim 1, wherein the first screen layer is permanently fixed to the first dielectric layer. 11. Display film according to claim 1, wherein the cover foil comprises at least a second dielectric layer which is fixed to the second screen layer and placed between this second screen layer and the first dielectric layer. 12. Display film according to claim 11, wherein the material constituting the second dielectric layer is a polymer. 13. Display film according to claim 11, wherein first and second dielectric layers are constituted of the same material. 14. Display film according to claim 11, wherein the first and second dielectric layers have the same thickness. 15. Display film according to claim 11, wherein the second screen layer is permanently fixed to the second dielectric layer. 16. Display film according to claim 1, wherein a removable cover foil is fixed to the second surface of said first dielectric layer, this cover foil comprising at least one second screen layer. 17. Display film according to claim 16. wherein the second screen layer is substantially identical to the first screen layer. 18. Display film according to claim 1, wherein the first screen layer is continuous.
Wiste Orville M. (Round Rock TX) Collison Santosh (Cedar Park TX) Kumar Vijay A. (Round Rock TX), Method of making a flexible, transparent film for electrostatic shielding.
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