An epoxy composition for application to the surface of a marine vessel. The epoxy composition comprises an epoxy resin and an iron particulate combined with one or more materials, preferably dry materials, which are piped into a feeder and then into a mixer. The dry materials are selected from a gro
An epoxy composition for application to the surface of a marine vessel. The epoxy composition comprises an epoxy resin and an iron particulate combined with one or more materials, preferably dry materials, which are piped into a feeder and then into a mixer. The dry materials are selected from a group of one or more additives comprising a ceramic material, an amorphous fumed silica such as Cab-O-Sil짰, a silicone and a color pigment. The combined mixture is then submitted to a polarizing process so that the iron particulate is magnetized to create a polarized, electromagnetic field. A second mixture comprising an epoxy hardener, a ceramic material and an amorphous fumed silica is produced for ultimately combining with the epoxy resin mixture at the point of application to the marine vessel.
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What is claimed is: 1. An epoxy composition comprising: a first mixture comprising an epoxy resin, a ceramic material, an amorphous fumed silica, a silicone, and iron particulate, the iron particulate magnetized to create a polarized, electromagnetic field; a second mixture for combining with the
What is claimed is: 1. An epoxy composition comprising: a first mixture comprising an epoxy resin, a ceramic material, an amorphous fumed silica, a silicone, and iron particulate, the iron particulate magnetized to create a polarized, electromagnetic field; a second mixture for combining with the first mixture, the second mixture comprising an epoxy hardener. 2. The epoxy composition of claim 1 wherein the epoxy resin further comprises a color pigment. 3. The epoxy composition of claim 1 wherein the epoxy resin comprises epichlorohydrin bisphenol. 4. The epoxy composition of claim 1 wherein the iron particulate comprises ferrite iron powder. 5. An epoxy composition for marine applications comprising: a first mixture comprising an epoxy resin, a ceramic material, an amorphous fumed silica, a silicone, and iron particulate, the iron particulate magnetized to create a polarized, electro-magnetic field, the first mixture in combination with a second mixture, the second mixture comprising an epoxy hardener, a ceramic material and an amorphous fumed silica. 6. The epoxy composition of claim 5 wherein the epoxy resin comprises from about 55% to about 65% by weight of the first mixture, the ceramic material in the first mixture comprises from about 15% to about 25% by weight of the first mixture, the silicone comprises from about 10% to about 20% by weight of the first mixture, the amorphous fumed silica in the first mixture comprises about 10% to 20% by weight of the first mixture, the iron particulate comprises from about 2% to about 8% by weight of the first mixture, a color pigment comprising from about 1% to about 5% by weight of the first mixture and the epoxy hardener comprises from about 40% to about 60% by weight of the second mixture, the ceramic material in the second mixture comprises from about 25% to about 35% by weight of the second mixture, and the amorphous fumed silica in the second mixture comprises about 15% to 25% by weight of the second mixture. 7. An epoxy composition comprising: a first mixture comprising an epoxy resin, an iron particulate, the iron particulate magnetized to create a polarized, electro-magnetic field and one or more additives selected from a group of additives, the group consisting of a ceramic material, an amorphous fumed silica, a silicone, and a color pigment; a second mixture for combining with the first mixture, the second mixture comprising an epoxy hardener, an iron particulate, the iron particulate magnetized to create a polarized, electromagnetic field and one or more additives selected from a group of additives, the group consisting of a ceramic material, an amorphous fumed silica, a silicone and a color pigment. 8. The epoxy composition of claim 7 wherein the epoxy resin comprises from about 55% to about 65% by weight of the composition. 9. The epoxy composition of claim 7 wherein the epoxy resin comprises epichlorohydrin bisphenol. 10. The epoxy composition of claim 7 wherein the iron particulate comprises ferrite iron powder. 11. The epoxy composition of claim 7 wherein the ratio of the first mixture to the second mixture is 2:1. 12. The epoxy composition of claim 7 wherein the combination of the first mixture and the second mixture is a cured combination, the curing resulting from heating the combination to at least 150째 F. 13. The epoxy composition of claim 7 wherein the first mixture comprises epoxy resin, a ceramic material, an amorphous fumed silica, a silicone, and iron particulate, the iron particulate magnetized to create a polarized, electromagnetic field. 14. The epoxy composition of claim 13 wherein the epoxy resin further comprises a color pigment. 15. The epoxy composition of claim 7 wherein the second mixture comprises an epoxy hardener, a ceramic material, and an amorphous fumed silica. 16. The epoxy composition of claim 15 wherein the second mixture further comprises a silicone, and iron particulate, the iron particulate magnetized to create a polarized, electromagnetic field. 17. A method for producing an epoxy composition comprising: a. mixing an epoxy resin, a ceramic material, an amorphous fumed silica, and a silicone; b. adding iron particulate to the mixture; c. activating an electromagnetic coil within the mixture resulting from step (b) so that the iron particulate is magnetized to create a polarized, electromagnetic field within the mixture; d. mixing an epoxy hardener, a ceramic material and an amorphous fumed silica in a separate tank. 18. The method of claim 17 wherein the epoxy resin, ceramic material, amorphous fumed silica, and silicone of step (a) are mixed in a first mixing tank and than added to a second mixing tank, the second mixing tank comprising a color pigment and the iron particulate, the second tank further comprising means for polarizing the iron particulate. 19. The method of claim 17 wherein the polarized epoxy resin mixture resulting from step (a) through step (c) is combined with the epoxy hardener mixture of step (d) and applied to a marine vessel. 20. The method of claim 17 wherein the mixture of the polarized epoxy resin mixture resulting from step (a) through step (c) is combined with the epoxy hardener mixture of step (d) within a polarized spray system. 21. The method of claim 17 wherein the combined mixture of the polarized epoxy resin mixture resulting from step (a) through step (c) and the epoxy hardener mixture of step (d) is cured by heating to at least 150째 F. 22. A method for producing an epoxy composition comprising: a. mixing an epoxy resin, a ceramic material, an amorphous fumed silica, and a silicone in a first tank using a centrifugal mixer; b. transferring the mixture resulting from step (a) to a second tank; c. mixing the mixture of step (a) with iron particulate within the second tank and continuing to mix with a centrifugal mixture; d. simultaneously activating an electromagnetic coil within the second tank so that the iron particulate is magnetized to create a polarized, electromagnetic field within the mixture; e. mixing an epoxy hardener, a ceramic material and amorphous fumed silica within a third tank. 23. The method of claim 22 further comprising the step of, upon application, combining the magnetically polarized epoxy resin mixture with the epoxy hardener mixture, mixing the combined epoxy resin mixture and the epoxy hardener mixture and applying the resulting mixed combination to a marine vessel. 24. The method of claim 22 wherein the ratio of the epoxy resin mixture to the epoxy hardener mixture is 2:1. 25. The method of claim 22 further comprising the step of curing the combined epoxy resin mixture and epoxy hardener mixture by heating. 26. A method for producing an epoxy composition for marine applications comprising: a. mixing an epoxy resin, an iron particulate and one or more additives selected from a group of additives, the group consisting of a ceramic material, an amorphous fumed silica, a silicone, and a color pigment; b. mixing the mixture of step (a) with a centrifugal mixture; c. simultaneously activating an electro-magnetic coil within the mixture of step (a) so that the iron particulate is magnetized to create a polarized, electromagnetic field within the mixture; d. within a separate tank, mixing an epoxy hardener and an iron particulate magnetized to create a polarized, electro-magnetic field with one or more additives selected from a group of additives, the group consisting of a ceramic material, an amorphous fumed silica, a silicone, and a color pigment and; e. upon application, combining the epoxy resin mixture with the epoxy hardener mixture, mixing the combined epoxy resin mixture and the epoxy hardener mixture and applying the resulting mixed combination to a marine vessel. 27. The method of claim 26 wherein the epoxy resin mixture resulting from step (a) through step (d) and the epoxy hardener mixture of step (e) are combined, mixed and applied by a spray system.
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이 특허에 인용된 특허 (3)
Hajovsky Robert J. (Scotland TX), Conductive adhesive.
Goel Anil B. (Worthington OH) Holehouse Joseph G. (Columbus OH) Jones Jeffrey P. (Columbus OH) DeLong Teresa (Marysville OH), High performance induction curable two-component structural adhesive with nonsagging behavior.
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