Razor blade technology

Information

  • Patent Grant
  • 6684513
  • Patent Number
    6,684,513
  • Date Filed
    Tuesday, February 29, 2000
    24 years ago
  • Date Issued
    Tuesday, February 3, 2004
    20 years ago
Abstract
A razor blade including a substrate with a cutting edge defined by a sharpened tip and adjacent facets, a layer of hard coating on the cutting edge, an overcoat layer of a chromium containing material on the layer of hard carbon coating, and an outer layer of polytetrafluoroethylene coating over the overcoat layer.
Description




The invention relates to improvements to razors and razor blades.




A razor blade is typically formed of a suitable substrate material such as stainless steel, and a cutting edge is formed with a wedge-shaped configuration with an ultimate tip having a radius less than about 1000 angstroms, e.g., about 200-300 angstroms. Hard coatings such as diamond, amorphous diamond, diamond-like carbon-(DLC) material, nitrides, carbides, oxides or ceramics are often used to improve strength, corrosion resistance and shaving ability, maintaining needed strength while permitting thinner edges with lower cutting forces to be used. Polytetrafluoroethylene (PTFE) outer layer can be used to provide friction reduction. Interlayers of niobium or chromium containing materials can aid in improving the binding between the substrate, typically stainless steel, and hard carbon coatings, such as DLC. Examples of razor blade cutting edge structures and processes of manufacture are described in U.S. Pat. Nos. 5,295,305; 5,232,568; 4,933,058; 5,032,243; 5,497,550; 5,940,975; 5,669,144; EP 0591339; and PCT 92/03330, which are hereby incorporated by reference.




In use, the ultimate tip of the edges having hard coatings and polytetrafluoroethylene outer layers can become more rounded after repeated shaves such that there is an increase in the tip radius and a generally perceived decrease in shaving performance.




SUMMARY OF THE INVENTION




In one aspect, the invention features, in general, a razor blade including a substrate with a cutting edge defined by a sharpened tip and adjacent facets, a layer of hard coating on the cutting edge, an overcoat layer of a chromium containing material on the layer of hard coating, and an outer layer of polytetrafluoroethylene coating on the overcoat layer.




In another aspect the invention features, in general, a shaving razor including a handle and a razor head with a blade having a substrate with a cutting edge defined by a sharpened tip and adjacent facets, a layer of hard coating on the cutting edge, an overcoat layer of a chromium containing material on the layer of hard coating, and an outer layer of polytetrafluoroethylene coating on the overcoat layer.




Particular embodiments of the invention may include one or more of the following features. In particular embodiments, the hard coating material can be made of carbon containing materials (e.g., diamond, amorphous diamond or DLC), nitrides, carbides, oxides or other ceramics. The hard coating layer can have a thickness less than 2,000 angstroms. The overcoat layer can be made of chromium or a chromium containing alloy compatible with polytetrafluoroethylene such as a chromium platinum alloy. The overcoat layer can be between 100 and 500 angstroms thick. The blade can include an interlayer between the substrate and the layer of hard coating. The interlayer can include niobium or a chromium containing material. The polytetrafluoroethylene can be Krytox LW1200 available from DuPont. The PTFE outer layer can be between 100 and 5000 angstroms thick.




In another aspect, the invention features, in general, making a razor blade by providing a substrate with a cutting edge defined by a sharpened tip and adjacent facets, adding a layer of hard coating on the cutting edge, adding an overcoat layer of a chromium containing material on the layer of hard coating, and adding an outer layer of polytetrafluoroethylene coating over the overcoat layer.




Particular embodiments of the invention may include one or more of the following features. In particular embodiments the layers can be added by physical vapor deposition (i.e., sputtering) or by chemical vapor deposition. The chromium containing layer, preferably chromium, can be sputter deposited under conditions that result in a compressively stressed coating. The sputter deposition of chromium containing materials can include applying a DC bias to the target that is more negative than −50 volts, preferably more negative than −200 volts. Alternatively an appropriate RF bias scheme can be used to achieve an equivalent chromium layer.




Embodiments of the invention may include one or more of the following advantages. The use of a chromium containing overcoat layer provides improved adhesion of the polytetrafluorethylene outer layer to the hard coating layer. The razor blade has improved edge strength provided by hard coating and has reduced tip rounding with repeated shaves. Reduced tip rounding minimizes the increase in cutting force thereby maintaining excellent shaving performance. The razor blade has excellent shaving characteristics from the first shave onwards.




Other features and advantages of the invention will be apparent from the following description of a particular embodiment and from the claims.











DESCRIPTION OF THE DRAWINGS





FIG. 1

is a vertical sectional view of a cutting edge portion of a razor blade.





FIG. 2

is a perspective view of a shaving razor including the

FIG. 1

razor blade.











DESCRIPTION OF A PARTICULAR EMBODIMENT




Referring to

FIG. 1

, there is shown razor blade


10


including substrate


12


, interlayer


14


, hard coating layer


16


, overcoat layer


18


, and outer layer


20


. The substrate


12


is typically made of stainless steel (though other substrates can be employed) and has an ultimate edge sharpened to a tip radius of less than 1,000 angstroms, preferably 200 to 300 angstroms, and has a profile with side facets


22


at an included angle of between 15 and 30 degrees, preferably about 19 degrees, measured at 40 microns from the tip.




Interlayer


14


is used to facilitate bonding of the hard coating layer to the substrate. Examples of suitable interlayer material are niobium and chromium containing material. A particular interlayer is made of niobium greater than 100 angstroms and preferably less than 500 angstroms thick. PCT 92/03330 describes use of a niobium interlayer.




Hard coating layer


16


provides improved strength, corrosion resistance and shaving ability and can be made from carbon containing materials (e.g., diamond, amorphous diamond or DLC), nitrides (e.g., boron nitride, niobium nitride or titanium nitride), carbides (e.g., silicon carbide), oxides (e.g., alumina, zirconia) or other ceramic materials. The carbon containing materials can be doped with other elements, such as tungsten, titanium or chromium by including these additives, for example in the target during application by sputtering. The materials can also incorporate hydrogen, e.g., hydrogenated DLC. Preferably coating layer


16


is made of diamond, amorphous diamond or DLC. A particular embodiment includes DLC less than 2,000 angstroms, preferably less than 1,000 angstroms. DLC layers and methods of deposition are described in U.S. Pat. No. 5,232,568. As described in the “Handbook of Physical Vapor Deposition (PVD) Processing,” DLC is an amorphous carbon material that exhibits many of the desirable properties of diamond but does not have the crystalline structure of diamond.




Overcoat layer


18


is used to reduce the tip rounding of the hard coated edge and to facilitate bonding of the outer layer to the hard coating while still maintaining the benefits of both. Overcoat layer


18


is preferably made of chromium containing material, e.g., chromium or chromium alloys that are compatible with polytetrafluoroethylene, e.g., CrPt. A particular overcoat layer is chromium about 100-200 angstroms thick. Blade


10


has a cutting edge that has less rounding with repeated shaves than it would have without the overcoat layer.




Outer layer


20


is used to provide reduced friction and includes polytetrafluoroethylene and is sometimes referred to as a telomer. A particular polytetrafluoroethylene material is Krytox LW 1200 available from DuPont. This material is a nonflammable and stable dry lubricant that consists of small particles that yield stable dispersions. It is furnished as an aqueous dispersion of 20% solids by weight and can be applied by dipping, spraying, or brushing, and can thereafter be air dried or melt coated. The layer is preferably less than 5,000 angstroms and could typically be 1,500 angstroms to 4,000 angstroms, and can be as thin as 100 angstroms, provided that a continuous coating is maintained. Provided that a continuous coating is achieved, reduced telomer coating thickness can provide improved first shave results. U.S. Pat. Nos. 5,263,256 and 5,985,459, which are hereby incorporated by reference, describe techniques which can be used to reduce the thickness of an applied telomer layer.




Razor blade


10


is made generally according to the processes described in the above referenced patents. A particular embodiment includes a niobium interlayer


14


, DLC hard coating layer


16


, chromium overcoat layer


18


, and Krytox LW1200 polytetrafluoroethylene outer coat layer


20


. Chromium overcoat layer


18


is deposited to a minimum of 100 angstroms and a maximum of 500 angstroms. It is deposited by sputtering using a DC bias (more negative than −50 volts and preferably more negative than −200 volts) and pressure of about 2 millitorr argon. The increased negative bias is believed to promote a compressive stress (as opposed to a tensile stress), in the chromium overcoat layer which is believed to promote improved resistance to tip rounding while maintaining good shaving performance. Blade


10


preferably has a tip radius of about 200-400 angstroms, measured by SEM after application of overcoat layer


18


and before adding outer layer


20


.




Referring to

FIG. 2

, blade


10


can be used in shaving razor


110


, which includes handle


112


and replaceable shaving cartridge


114


. Cartridge


14


includes housing


116


, which carries three blades


10


, guard


120


and cap


122


. Blades


10


are movably mounted, as described, e.g., in U.S. Pat. No. 5,918,369, which is incorporated by reference. Cartridge


114


also includes an interconnect member on which housing


116


is pivotally mounted at two arms


128


. The interconnect member includes a base


127


which is replaceably connected to handle


112


. Alternatively, blade


10


can be used in other razors having one, two or more than three blades, double-sided blades, and razors that do not have movable blades or pivoting heads where the cartridge is either replaceable or permanently attached to a razor handle.




In use, razor blade


10


has excellent shaving characteristics from the first shave onwards. Blade


10


has improved edge strength provided by hard coating and has reduced tip rounding with repeated shaves provided by the overlayer coating while maintaining excellent shave characteristics.




Other embodiments of the invention are within the scope of the appended claims.



Claims
  • 1. A razor blade comprising a substrate with a cutting edge defined by a sharpened tip and adjacent facets,a layer of hard coating on said cutting edge, said hard coating being made of amorphous material containing carbon, an overcoat layer of a chromium containing material on said layer of hard coating, and an outer layer of polytetrafluoroethylene coating over said overcoat layer.
  • 2. The blade of claim 1 wherein said hard carbon coating comprises diamond-like carbon material.
  • 3. The blade of claim 2 wherein said overcoat layer consists of chromium.
  • 4. The blade of claim 3 wherein said polytetrafluoroethylene is Krytox LW1200.
  • 5. The blade of claim 2 further comprising a niobium interlayer between said substrate and said hard coating.
  • 6. The blade of claim 1 wherein said hard carbon coating comprises amorphous diamond material.
  • 7. The blade of claim 1 wherein said overcoat layer consists of chromium.
  • 8. The blade of claim 1 wherein said overcoat layer consists of a chromium containing alloy compatible with polytetrafluoroethylene.
  • 9. The blade of claim 8 wherein said alloy is a chromium platinum alloy.
  • 10. The blade of claim 7, 8, 3, or 9 wherein said overcoat layer is compressively stressed.
  • 11. The blade of claim 1 further comprising an interlayer between said substrate and said layer of hard coating.
  • 12. The blade of claim 11 wherein said interlayer comprises niobium.
  • 13. The blade of claim 11 wherein said interlayer comprises a chromium containing material.
  • 14. The blade of claim 1 wherein said polytetrafluoroethylene is Krytox LW1200.
  • 15. The blade of claim 1 wherein said hard coating layer has a thickness less than 2,000 angstroms.
  • 16. The blade of claim 1 wherein said overcoat layer is between 100 and 500 angstroms thick.
  • 17. The blade of claim 1 wherein said outer layer is between 100 and 5,000 angstroms thick.
  • 18. The blade of claim 1, 3, 4 or 15 wherein said cutting edge has less rounding with repeated shaves than it would have without said overcoat layer.
  • 19. The blade of claim 1 wherein said hard coating is doped with another element.
  • 20. A shaving razor comprisinga handle, a housing connected to said handle, and at least one razor blade mounted in said housing, said blade comprising a substrate with a cutting edge defined by a sharpened tip and adjacent facets, a layer of hard coating on said cutting edge, said hard coating being made of amorphous material containing carbon, an overcoat layer of a chromium containing material on said layer of hard coating, and an outer layer of polytetrafluoroethylene coating over said overcoat layer.
  • 21. The razor of claim 20 further comprising a niobium interlayer between said substrate and said hard coating.
  • 22. The razor of claim 20 wherein said overcoat layer consists of chromium.
  • 23. The razor of claim 20 wherein said hard coating is doped with another element.
  • 24. A method of making a razor blade comprisingproviding a substrate with a cutting edge defined by a sharpened tip and adjacent facets, adding a layer of hard coating on said cutting edge, said hard coating being made of amorphous material containing carbon, adding an overcoat layer of a chromium containing material on said layer of hard coating, and adding an outer layer of polytetrafluoroethylene coating over said overcoat layer.
  • 25. The method of claim 24 wherein said adding a layer of hard coating includes vapor depositing a carbon containing material.
  • 26. The method of claim 24 wherein said adding a layer of chromium containing material includes vapor depositing said chromium containing material.
  • 27. The method of claim 26 wherein said adding a layer of chromium containing material includes sputter depositing under conditions to result in compressively stressed material.
  • 28. A razor blade comprisinga substrate with a cutting edge defined by a sharpened tip and adjacent facets; a layer of a hard carbon containing material, doped with another element, on the cutting edge; an overcoat layer of a chromium containing material on the layer of the hard carbon containing material; and an outer layer of polytetrafluoroethylene over the overcoat layer.
  • 29. The razor blade of claim 28, wherein the element is a metal.
  • 30. The razor blade of claim 29, wherein the metal is selected from the group consisting of tungsten and titanium.
  • 31. The razor blade of claim 29, wherein the metal is chromium.
  • 32. The razor blade of claim 31, wherein the hard carbon containing material is diamond-like carbon.
  • 33. The razor blade of claim 28, wherein the hard carbon containing material is selected from the group consisting of diamond-like carbon and amphorous diamond.
  • 34. The razor blade of claim 28, wherein the layer of hard carbon material has a thickness less than 2,000 angstroms, the overcoat layer has a thickness between 100 and 500 angstroms, and the outer layer has a thickness between 100 and 5,000 angstroms.
  • 35. A shaving razor comprisinga handle, a housing connected to the handle, and at least one razor blade within the housing, the razor blade comprising a substrate with a cutting edge defined by a sharpened tip and adjacent facets; a layer of a hard carbon containing material, doped with another element, on the cutting edge; an overcoat layer of a chromium containing material on the layer of the hard carbon containing material; and an outer layer of polytetrafluoroethylene over the overcoat layer.
  • 36. The shaving razor of claim 35, wherein the element is a metal.
  • 37. The shaving razor of claim 35, wherein the metal is chromium.
  • 38. The shaving razor of claim 35, wherein the hard carbon containing material is selected from the group consisting of diamond-like carbon and amphorous diamond.
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Number Date Country
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Entry
Krytox® LW-1200, Krytox® performance lubricants, Jun. 1996.
International Search Report PCT/US01/06206.