TH6164B - Method for treating the cutting edge of a razor blade - Google Patents

Abstract

This invention is about an improved method of creating a coating. The polyfluorocarbon on the cutting edge of the razor blade consists of a fluorocarbon polymerization step. with molecular mass At least about 1,000,000 have been irradiated to ionization to reduce the molecular mass to about 700 to about 700,000, the fluorocarbon polymerization. isolated is diffused in an aqueous solution, and the resulting coating is heated to allow the fluorocarbon polymer to melted, partially melted or greasy together

Claims (8)

1. A method for creating a coating. Polyfluorocarbon, cutting edge of a razor blade consisting of a procedure (a), dosing of tetrafluoroethylene polymer powder with a minimum average molecular mass of approximately 1,000,000 g / The moles are irradiated to ionize the size of approximately 20 to approximately 80 megarad (magarad) to reduce the average molecular mass from approximately 700 to approximately 700,000 (b). The irradiated razor is spread in an aqueous solution free of chlorofluorocarbon solvent, (c) coating the cutting edge of the razor with that spread, and (d). Sufficiently heat the coating. To allow the fluorocarbon polymer to adhere to the cutting edge of the blade. 2. Method according to claim 1. Where the heating of the step (d) is sufficient to make the polymer 2. In which the heating of the procedure (d) is sufficient to allow the polymer to be melted, partially melted or greasy. 4. Method according to claim 3. In which the tetrafluoroethylene polymer of the step (a) is reduced to a mean molecular mass from approximately 700 to approximately 51,000. G / mol by irradiation The ionization shall be provided 5. Method according to the claim 4. Tetrafluoroethylene Polymer is in dry powder form 6. Method according to claim 5 Which the irradiated tetrafluoroethylene polymer of the procedure (b) has an average particle size of not more than approximately 100 microns. 7. Method according to claim 6. At which the level of Tetrafluoro The radiation diffused in the aqueous solution of the procedure (b) was from approximately 0.5% to approximately 2.0% by weight. 8. Method according to claim 7. The level of tetrafluoroethylene was approximately 0.5% to approximately 2.0% by weight. The irradiated polymer diffused in the aqueous solution of the procedure (b) is from approximately 0.7% to approximately 1.0% by weight. 9. Method according to claim 8. In which the aqueous solution of the procedure (b) b) It also contains an effective amount of wetting agent 1 0. Method according to claim 9. In which the wetting agent has a hydropil-lipopil equilibrium numerical value from approximately 12.4 to approximately 18 1. 1. Method according to claim 10, in which polytetrafluoroethylene has a molecular mass of approximately 25,000, whose hydropyl-lipopyl equilibrium is between 13.5 and 18, and which size Of particles is from approximately 2 μm to about 8 μm 1 2. Methods according to claim 1 1. Where the coating of the cutting edge of the razor blade is produced by electrostatic spraying technique 1 3. Method of claim 9. In which the wetting agent is applied in equal amounts of at least 5% by weight of the irradiated tetrafluoroethylene polymer. And the wetting agent was selected from a group containing alkali metal salts of dialkylsulfosuccinate, Haier fatic acid soap, fatiamine. , Sorbitan mono-and di-esters of the fati acid. And its polyoxyril sulfonate derivatives, polyalkylene ether glycol and mono- and di-fati acid ester of Glycol 1 4. Method according to claim 13, in which radiated polytetrafluoroethylene has a molecular mass of approximately 25,000 and whose particle size is from approximately 2 μm to approximately 8 μm 1. 5. Produce a razor blade coated with polyfluorocarbon by a procedure that includes (a) the application of tetrafluoroethylene powder. Polymers with a minimum molecular mass of approximately 1,000,000 are irradiated to ionize the size of approximately 20 to approximately 80 megarads (magarad) to reduce their molecular mass. On average, down to about 700 to approximately 51,000 (b) the irradiated fluorocarbon polymerization is diffused in aqueous solution. (C) the razor's edge coating with that diffusion agent, and (d) sufficient heating of the coating to allow the fluorocarbon fluorocarbon fluoride to be applied. The carbon polymer is attached to the cutting edge of the blade 1. 6. Cutting edge of razor blade coated with polyfluorocarbon. According to claim 15, where the heating of the steps (d) is sufficient to make the polymer melt, partially fused together 1 7. The edge of the razor blade according to claim 16, for which the heating of the procedure (d) is sufficient to partially melt or melt the polymer 1. 8. Cutting edge of razor blade coated with polyfluorocarbon. According to claim 17, the level of the irradiated tetrafluoroethylene polymer diffused in the aqueous solution of the procedure (b) is from approximately 0.5% to approximately 2.0% by Weight and the aqueous solution of the step (b) also contains an effective amount of wetting agent.