Abstract: An improved method of and apparatus for producing preferably thin plastic protective film layers for thin shiny copper foils and the like, as for PCB applications, with electric-charge adhering of the same to the foil and with peel-off releasable properties to provide the same original pristine, shiny copper foil surface without contamination, marring or other physical, chemical or other residue despite handling and other processing procedures.
Abstract: An improved method of and apparatus for producing novel preferably thin plastic protective or masking film layer products for thin shiny copper foils and the like, as for PCB applications and the like, with an inner releasable film surface coating carrying a permanent electric-charge for adhering to the shiny foil surface, but with the opposite outer surface of the film being maintained uncharged and electrically neutral.
Abstract: A low-cost method of making unique and printable holographic papers and the like with the aid of radiation-curable coatings and flexible embossed or engraved flexible web film masters, and as a single, non-laminated sheet; and novel improved diffraction-refraction and holographic high-gloss surface papers, boards and the like, clear, metallized, pigmented or tinted.
Abstract: A method for protecting a substrate sheet such as a conductive foil suitable for use in the manufacture of printed circuit boards involving applying a lamination mold-release layer to one side of a protective film, and applying a preferably electron beam curable adhesive pressure-sensitive coating to the other side of the film, curing the adhesive coating, and laminating the protective film to the foil or other substrate sheet, which, in turn, may be laminated to other substrates such as dielectric sheets.
Abstract: A method for protecting a substrate sheet such as a conductive foil suitable for use in the manufacture of printed circuit boards involving applying a lamination mold-release layer to one side of a protective film, and applying a preferably electron beam curable adhesive pressure-sensitive coating to the other side of the film, curing the adhesive coating, and laminating the protective film to the foil or other substrate sheet, which, in turn, may be laminated to other substrates such as dielectric sheets, and in which the laminate product is a protected substrate sheet having a protective film laminated to one side of the sheet (or both), the film having a lamination mold-release layer on one side thereof and an electron beam cured pressure-sensitive adhesive coating on the other side thereof, said other side contacting but being releasably detachable from said substrate sheet, and further wherein the substrate sheet is a foil or similar surface, protection is thus provided during handling and storage as wel
Abstract: An antistatic resin composition which is the electron radiation cured reaction product of an electron radiation curable prepolymer and an electron radiation reactive antistatic agent soluble in the prepolymer. An antistatic laminate is made by applying a mixture of the prepolymer and antistatic agent to a substrate and then contacting the mixture with electron radiation.
Abstract: A fire retardant antistatic coating and coated substrate. The coating includes a mixture of a radiation curable halogenated prepolymer, an effective amount of a quarternary ammonium compound antistatic agent and an effective amount of an antimony pentoxide flame ratardant agent. A coated substrate having a substrate film material coated with the above coating is included. A method for making a fire resistant and antistatic film which includes the steps of: (a) providing a substrate film; (b) preparing the coating by mixing a radiation curable prepolymer with an effective amount of a quarternary ammonium antistatic compound and an effective amount of an antimony pentoxide fire retardant compound; (c) the coating is then applied to the film material; and (d) the coating is contacted with electron radiation in an amount sufficient to cure the coating.
Abstract: A fire retardant antistatic coating and coated substrate. The coating includes a mixture of a radiation curable halogenated prepolymer, an effective amount of a quarternary ammonium compound antistatic agent and an effective amount of an antimony pentoxide flame retardant agent. A coated substrate having a substrate film material coated with the above coating is included. A method for making a fire resistant and antistatic film which includes the steps of: (a) providing a substrate film; (b) preparing the coating by mixing a radiation curable prepolymer with an effective amount of a quarternary ammonium antistatic compound and an effective amount of an antimony pentoxide fire retardant compound; (c) the coating is then applied to the film material; and (d) the coating is contacted with electron radiation in an amount sufficient to cure the coating.
Abstract: An antistatic resin composition which is the electron radiation cured reaction product of an electron radiation curable prepolymer and an electron radiation reactive antistatic agent soluble in the prepolymer. An antistatic laminate is made by applying a mixture of the prepolymer and antistatic agent to a substrate and then contacting the mixture with electron radiation.