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EP3221492B1 |
The present invention relates to a blade having at least one cutting edge, wherein the blade comprises at least in the region of the cutting edge a multi-layer material with at least five layers, and wherein metal layers and metal cerami...
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11041245 |
A method for preventing adhesion of aluminum onto the surface of a metallic product, which can be performed by a simple treatment, at low cost and within a short time. Tin granules having an average particle diameter of 10 to 100 μm and...
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20190085464 |
A method for preventing adhesion of aluminum onto the surface of a metallic product, which can be performed by a simple treatment, at low cost and within a short time. Tin granules having an average particle diameter of 10 to 100 μm and...
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EP3221492A1 |
The present invention relates to a blade having at least one cutting edge, wherein the blade comprises at least in the region of the cutting edge a multi-layer material with at least five layers, and wherein metal layers and metal cerami...
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EP2130653B1 |
In a cutting edge 2 of a razor blade, a non-nitrided layer 9 containing Ti, Al, and Cr is formed on opposite surfaces 7, 8 of a base plate 3 as a portion of a coating layer 4. A remaining layer 15 containing Ti, Al, Cr, and N is formed o...
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9403282 |
A diamond-containing blade includes a blade body having at proximal end a connection part to be fitted into a gripper; and an edge longitudinally formed along one side of the blade body, wherein the blade is manufactured by a process in ...
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WO/2016/079148A1 |
The present invention relates to a blade having at least one cutting edge, wherein the blade comprises at least in the region of the cutting edge a multi-layer material with at least five layers, and wherein metal layers and metal cerami...
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9180599 |
A method for deposition of a layer on a razor blade edge of a razor blade, the layer including at least two components, in an enclosure comprising at least first and second sputter targets, each sputter target including at least one of t...
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8621757 |
In a cutting edge of a razor blade, a non-nitrided layer containing Ti, Al, and Cr formed on opposite surfaces of a base plate as a portion of a coating layer. A remaining layer containing Ti, Al, Cr, and N formed on opposite surfaces of...
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EP2435596B1 |
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EP2599597A1 |
Disclosed herein is a diamond-containing blade, including: a blade body having at proximal end a connection part to be fitted into a gripper; and an edge longitudinally formed along one side of the blade body, wherein the blade is manufa...
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20130133209 |
Disclosed herein is a diamond-containing blade, including: a blade body having at proximal end a connection part to be fitted into a gripper; and an edge longitudinally formed along one side of the blade body, wherein the blade is manufa...
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EP2130653A4 |
In a cutting edge 2 of a razor blade, a non-nitrided layer 9 containing Ti, Al, and Cr is formed on opposite surfaces 7, 8 of a base plate 3 as a portion of a coating layer 4. A remaining layer 15 containing Ti, Al, Cr, and N is formed o...
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EP2435596A1 |
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EP1953004B1 |
A sharpener blade (1) has a steel component and an inorganic protective coating chemically bonded to steel component. The inorganic protective coating contains metals of groups III and IV of periodic table and/or metals of B-groups of pe...
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7967275 |
A hard film and a hard film-coated material having better wear resistance and sliding performance (due to lower friction coefficients) than conventional surface coating layers, wherein the hard film includes at least one covering layer A...
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WO/2010/138369A1 |
A razor blade including a substrate with a cutting edge, the substrate includes a mixed nitride-substrate interregion disposed at or beneath a surface of the substrate, the mixed nitride-substrate interregion being substantially free of ...
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WO/2010/132645A1 |
A razor blade that includes a substrate with a cutting edge, the substrate includes (a) a thin-film of a first material disposed thereon, the thin-film having a thickness less than 1 µm; (b) a mixed nitride-thin-film interregion dispose...
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20100024222 |
In a cutting edge of a razor blade, a non-nitrided layer containing Ti, Al, and Cr is formed on opposite surfaces of a base plate as a portion of a coating layer. A remaining layer containing Ti, Al, Cr, and N is formed on opposite surfa...
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EP2130653A1 |
In a cutting edge 2 of a razor blade, a non-nitrided layer 9 containing Ti, Al, and Cr is formed on opposite surfaces 7, 8 of a base plate 3 as a portion of a coating layer 4. A remaining layer 15 containing Ti, Al, Cr, and N is formed o...
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20080190758 |
A method for deposition of a layer on a razor blade edge of a razor blade, the layer including at least two components, in an enclosure comprising at least first and second sputter targets, each sputter target including at least one of t...
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EP1953004A1 |
A sharpener blade (1) has a steel component and an inorganic protective coating chemically bonded to steel component. The inorganic protective coating contains metals of groups III and IV of periodic table and/or metals of B-groups of pe...
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20080038503 |
A hard film and a hard film-coated material having better wear resistance and sliding performance (due to lower friction coefficients) than conventional surface coating layers, wherein the hard film includes at least one covering layer A...
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WO/2006/079360A1 |
A razor blade (1) comprises a razor blade edge (2) which comprises a substrate and a coating (6) on the substrate. The coating comprises a plurality of superimposed sets of a first (7) and a second (8) layer. The sets comprise nitrogen.
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