NO115868B - - Google Patents

Description

Razor blade, and method for its manufacture.

The present invention relates to razor blades, and the purpose is primarily to improve the shaving properties while at the same time significantly increasing the life of the blade. Furthermore, the invention relates to a method for a simple, economical and uniform production of such improved razor blades.

Razor blades have previously been coated with a number of different substances, e.g. a solid polymer of tetrafluoroethylene. This significantly improves shaving properties, and such a razor blade is described in German patent no. 1,147,141•

However, polymer-treated razor blades offer the disadvantage that the blade, the first few times it is used, gives the impression of being dull, and it can be so uncomfortable to use that you will be tempted to throw the blade away and try another one. Polymer-treated blades, however, become brilliant after one or two uses and remain brilliant for a long time until the edge is dulled by what can be called normal wear and tear. Unfortunately, the cause of this "running-in period" is not known, and a number of attempts have been made to avoid this running-in period, but to no avail. With the present invention, however, a razor blade with the excellent shaving properties of tetrafluoroethylene-treated eggs has been achieved without the need for any break-in period, and this has been achieved by coating the egg with chrome before the application of the polytetrafluoroethylene layer. It turns out that a chrome-plated razor blade applied to a polytetrafluoroethylene layer has shaving properties that are excellent from the first use.

The invention thus relates to razor blades, and it is essentially characterized by the combination of the individually known features that the edge is coated with chrome and that it is provided with a thin adhesive coating of polytetrafluoroethylene.

The application of the chrome coating to the blade may be by any known method which results in a smooth uniform coating of chrome, and the chrome coating may be applied only to the edge of the razor blade or it may be applied to the entire blade. The inventors have achieved particularly satisfactory results with the application of chrome to the entire blade, where the application takes place on one side at a time and was applied by the well-known evaporation technique. However, the invention also aims to use other known methods for applying the chrome coating, for example methods based on the electrolytic application of hard chrome coatings. A cleaning of the blade by means of a glow discharge has also proved to be very satisfactory, especially when chromium is to be applied by vapor deposition which will be described in detail below. After the chrome coating, the blade is sharpened lightly on a leather surface, sufficient to return the blade to its desired sharpness without wearing through the chrome coating, so that the base metal is left free. After this sharpening, the blade is thoroughly cleaned again, e.g. by spraying with trichlorethylene, and then dried in air and then coated with polytetrafluoroethylene dispersion followed by re-drying and heat treatment in order to obtain a well-adherent coating of polytetrafluoroethylene, preferably in a reducing atmosphere.

The invention thus also relates to a method for the production of razor blades, characterized by the application of a thin coating of chrome and a previously shaped and ground egg of a ferrous alloy, after which the egg is re-honed after the application of the chrome and before the application of a relatively thin adhesive coating of polytetrafluoroethylene on the egg.

In the following examples, it will be described in detail how the now preferred production methods for these excellent razor blades are built up. However, it should be pointed out that the invention is not limited to the details found in these examples, but also includes a large number of modifications which, in the light of this description, will be self-evident to professionals, but such modifications will also fall within - for the scope of the invention.

As mentioned earlier, the base metal in the razor blade can be carbon steel, e.g. steel with 1.25$ carbon, or stainless steel with lfo carbon and 14$ chromium or various other ferrochrome alloys. Before applying the chrome coating, the blades are ground in the usual industrial way to the usual egg angle and facet width.

The ground blades are then advantageously first cleaned with trichloroethylene, after which the blades are placed in a vacuum chamber where the pressure is reduced to approximately 10-100 microns of mercury, and where the blades are further treated and cleaned by means of glow discharge.

This glow discharge preferably takes place with an electric current of 150 to 200 milliamperes with a voltage applied between the blades and an electrode standing 30 cm from the blades, and the voltage is from 1000-1500 volts at a pressure of 100 microns mercury column and up to 3000 volts at a pressure of 10 micron mercury column. This glow discharge then takes place for several minutes, preferably about 3 minutes, and is then interrupted. Then the pressure in the chamber containing the blades is reduced to 10"^" mm of mercury and pellets of chromium, about 25O milligrams, are placed in a tungsten dish standing about 30 cm below the blades, and the dish is heated electrically to the vaporization temperature for chromium, e.g. by passing 10 amperes at a voltage of 40 volts through the tungsten dish. In this process, the chrome coating is applied only to one side of the blades, but the blades can then be turned around and the operation repeated. In this way, you get on both sides of the edge of the razor blade a well-adherent, extremely thin coating of chrome with a thickness that is not sufficient to significantly change the edge angle and facet width of the previously sharpened blade. However, a final sharpening is usually necessary. This can be advantageously done using leather with a light pressure, e.g. 10-20 strokes with a length of 7^ cm/side or until the desired sharpness has been achieved.

Razor blades that have been re-honed must be cleaned carefully, e.g. by spraying with trichlorethylene, and d dried in air. A dispersion of polytetrafluoroethylene, e.g. "Teflon" is then applied to the eggs of the leaf, preferably as an aqueous dispersion, and the dispersion is then dried and heat treated as previously described.

The heat treatment can advantageously be carried out by placing a collection of coated razor blades in a sealed retort under an atmosphere of cracked ammonia, after which the temperature of the retort and its contents is raised to about 380°C for a period of 10 min. The retort is then removed from the heating oven and cooled in air to below 150°C

before any oxidizing gas is allowed to contact the leaves. The leaves are preferably quickly cooled from the maximum temperature during the heat treatment by spraying the retort with water and then e.g. cooled to a temperature of about ^ 0°C,°§then cooled further as just described.

Special precautions must be taken to ensure good, even adhesion of the polytetrafluoroethylene to the chrome coating and to achieve a uniform coating of aqueous polytetrafluoroethylene dispersion on the chrome coating. Under these conditions, the formation of the polytetrafluoroethylene coating on chrome is more difficult than when the coating is formed directly on carbon steel or stainless steel.

The inventors have found that the uniformity of the polytetrafluoroethylene coating and its adhesion to the chrome coating is noticeably improved by introducing into the polytetrafluoroethylene dispersion which is applied to the blade a wetting agent in an amount greater than that normally used to stabilize such dispersions. For this purpose, the inventors have used with particular advantage a wetting agent marketed under the trademark "Triton X-100", consisting mainly of a non-ionic octylphenol xyethanol which is sometimes designated as polyethylene glycol mono-p-octylphenyl ether.

This wetting agent has often been used in aqueous dispersions of polytetrafluoroethylene, e.g. "Teflon" in amounts sufficient to stabilize the dispersion. With the present invention in mind, however, it is recommended that the content of wetting agent be increased significantly beyond what is normally found in commercial Teflon dispersions.

Instead of "Triton X-100", other non-ionic wetting agents can advantageously be used which will be almost completely evaporated at the heat treatment temperatures used, e.g. temperatures higher than 320°C.

The content of wetting agent to be used according to the present invention may vary significantly depending on the specific wetting agents used, the method for applying the coating to the razor blade and other work details. It is therefore not practical to prescribe any specific ratios or mixing ranges

as the most advantageous under all working conditions. The quantities which

used must, however, as pointed out above, significantly exceed the amounts normally used to stabilize the dispersion. If you follow this regulation, the surplus that gives the best results can easily be determined by simple tests.

Good results have been obtained by using as a coating agent an aqueous dispersion prepared by diluting a portion of an aqueous dispersion of polytetrafluoroethylene marketed by Imperial Chemical Industries under the name "Fluon GP-1", with nine growth parts of a solution of 0 .25$ "Triton X-100" wetting agent in distilled water.

In standard test methods using a separate shaving surface, blades produced in the manner described by applying a thin chrome coating to a stainless steel base metal followed by the application of a polytetrafluoroethylene coating to the chrome proved to be completely superior properties compared to blades produced by applying the same polytetrafluoroethylene coating to a stainless steel egg. Likewise, it was found that blades produced by applying chromium coating to a base metal of carbon steel followed by coating the edge with polytetrafluoroethylene as described in this case, were far better than blades where polytetrafluoroethylene coating was applied directly to base metal of carbon steel.

Claims (2)

1. Razor blade, characterized by the combination of the individually known features that the egg is coated with chrome and that it is provided with a thin adhesive coating of polytetrafluoroethylene. 2. Procedure for the production of razor blades as set forth in claim 1, characterized in that a thin coating of chrome is applied to the edge of the razor blade after it has been ground and honed in advance, after which the chrome-coated edge is honed again before the coating of polytetrafluoroethylene is applied.