A method of reducing surface roughness in an internal passage of a workpiece includes contacting the internal passage with a corrosive working fluid comprising water at or near supercritical conditions.

A method of reducing surface roughness in an internal passage of a workpiece includes contacting the internal passage with a corrosive working fluid comprising water at or near supercritical conditions.

A touch screen sensor includes a visible light transparent substrate and an electrically conductive micropattern disposed on or in the visible light transparent substrate. The micropattern includes a first region micropattern within a touch sensing area and a second region micropattern. The first region micropattern has a first sheet resistance value in a first direction, is visible light transparent, and has at least 90% open area. The second region micropattern has a second sheet resistance value in the first direction. The first sheet resistance value is different from the second sheet resistance value.

A touch screen sensor includes a visible light transparent substrate and an electrically conductive micropattern disposed on or in the visible light transparent substrate. The micropattern includes a first region micropattern within a touch sensing area and a second region micropattern. The first region micropattern has a first sheet resistance value in a first direction, is visible light transparent, and has at least 90% open area. The second region micropattern has a second sheet resistance value in the first direction. The first sheet resistance value is different from the second sheet resistance value.

The present invention is directed to a method of etching anode foil in a non-uniform manner which minimizes thermal oxidation during foil cutting. Having less oxide improves the ability to cut through aluminum anodes with lower energy rates. In aluminum foils, it has been found that a masking step before etching reduces conversion of boehmite aluminum oxide to alpha-phase corundum during laser cutting of anodes, which increases edge quality and productivity. Additionally, the non-etched anode frame allows for less surface area to form during the aging process. As a result, the leakage current is reduced by the proportion of edge to anode surface area, and the aging process will be faster, leading to higher productivity.

The present invention is directed to a method of etching anode foil in a non-uniform manner which minimizes thermal oxidation during foil cutting. Having less oxide improves the ability to cut through aluminum anodes with lower energy rates. In aluminum foils, it has been found that a masking step before etching reduces conversion of boehmite aluminum oxide to alpha-phase corundum during laser cutting of anodes, which increases edge quality and productivity. Additionally, the non-etched anode frame allows for less surface area to form during the aging process. As a result, the leakage current is reduced by the proportion of edge to anode surface area, and the aging process will be faster, leading to higher productivity.

This application relates to a method of manufacturing a knife using a multilayer material. In one aspect, the method includes preparing a multilayer material for manufacturing a knife, and heating and then forging the multilayer material to form a knife-shaped structure including a blade part and a handle part. The method also includes grinding the blade part to form a sharpened knife-edge and applying mud, including kaolin and white clay, to an entire surface of the knife-shaped structure and removing the mud applied to the blade part. The method further includes heating the knife-shaped structure applied with the mud, and quenching the heated knife-shaped structure through oil-cooling. The method further includes etching a surface of the quenched knife-shaped structure to form a pattern on the surface and grinding the surface-etched knife-shaped structure to form a knife having a final shape.

This application relates to a method of manufacturing a knife using a multilayer material. In one aspect, the method includes preparing a multilayer material for manufacturing a knife, and heating and then forging the multilayer material to form a knife-shaped structure including a blade part and a handle part. The method also includes grinding the blade part to form a sharpened knife-edge and applying mud, including kaolin and white clay, to an entire surface of the knife-shaped structure and removing the mud applied to the blade part. The method further includes heating the knife-shaped structure applied with the mud, and quenching the heated knife-shaped structure through oil-cooling. The method further includes etching a surface of the quenched knife-shaped structure to form a pattern on the surface and grinding the surface-etched knife-shaped structure to form a knife having a final shape.

The purpose of the present invention is to provide a method for stripping a resist film, which includes a cured resin having a phosphate ester group or a carboxyl group, by using a resist stripping solution having high strippability, the method being characterized in that deterioration of the strippability of the resist stripping solution is suppressed and the phosphorus concentration in the resist stripping solution is not substantially increased. In this method, a resist stripping solution is brought into contact with a resist film, which includes a cured resin having a phosphate ester group or a carboxyl group and is disposed on a metal plate, and the resist film is stripped from the metal plate. In this method, the resist stripping solution contains a benzyl alcohol, water in a mass ratio to the benzyl alcohol of 0.3-2.5, and a surfactant, and is substantially free of caustic alkali components.

The purpose of the present invention is to provide a method for stripping a resist film, which includes a cured resin having a phosphate ester group or a carboxyl group, by using a resist stripping solution having high strippability, the method being characterized in that deterioration of the strippability of the resist stripping solution is suppressed and the phosphorus concentration in the resist stripping solution is not substantially increased. In this method, a resist stripping solution is brought into contact with a resist film, which includes a cured resin having a phosphate ester group or a carboxyl group and is disposed on a metal plate, and the resist film is stripped from the metal plate. In this method, the resist stripping solution contains a benzyl alcohol, water in a mass ratio to the benzyl alcohol of 0.3-2.5, and a surfactant, and is substantially free of caustic alkali components.