A decal assembly applied to a finished wood floor comprising a visible layer, a clear layer adhered to the visible layer, and a floor finish layer, wherein an outer surface of the floor finish has a coefficient of friction similar to the finished wood floor. The floor finish may be water-based or oil-based and the decal assembly may include an adhesion promotion layer disposed between the clear layer and the floor finish layer. The decal assembly may also include the clear layer having a roughened outer surface. The decal may be installed on a wood floor by laminating a clear layer to a visible layer, roughening an outer surface of the clear layer and applying a floor finish to the outer surface of the clear layer after the roughening step. An adhesion promotion layer may also be applied between the clear layer and the floor finish layer.

A decal assembly applied to a finished wood floor comprising a visible layer, a clear layer adhered to the visible layer, and a floor finish layer, wherein an outer surface of the floor finish has a coefficient of friction similar to the finished wood floor. The floor finish may be water-based or oil-based and the decal assembly may include an adhesion promotion layer disposed between the clear layer and the floor finish layer. The decal assembly may also include the clear layer having a roughened outer surface. The decal may be installed on a wood floor by laminating a clear layer to a visible layer, roughening an outer surface of the clear layer and applying a floor finish to the outer surface of the clear layer after the roughening step. An adhesion promotion layer may also be applied between the clear layer and the floor finish layer.

Transfer films comprising a carrier film, a sacrificial template layer deposed on the carrier film and comprising reentrant forming template features, and a thermally stable backfill layer having a first surface conforming to the reentrant forming template features and forming reentrant features and an opposing planar second surface; and methods of making transfer films are disclosed.

A carrying case for a portable electronic device is disclosed. Generally speaking, the protective case for a portable electronic device comprises a body section having a back surface and upturned sides, and a rim affixed to an edge of the upturned sides of the body sections, the rim defining an open area. Preferably, the body section is comprised of contrasting colors and forms a cavity defined by the back surface and the upturned sides. Further, the body section and the rim are preferably formed of the same material. A second protective section may be used to form a protective shell-like structure about the electronic device.

A printing apparatus having an ink application unit applying a first ink containing at least resin as a solid content onto a discharge medium, a reaction liquid application unit applying a reaction liquid reacting with a component in the ink to aggregate the solid content in the first ink onto the discharge medium, and a liquid absorbing unit for bringing a liquid absorbing member of a porous body into contact with an ink image formed by the ink and the reaction liquid on the discharge medium to absorb liquid to thereby reduce the amount of the liquid in the ink image, in which a layer is formed with the first ink and the reaction liquid on the discharge medium, and then a test pattern utilized for detection is printed by applying a second ink different from the first ink to a part of the layer by the ink application unit.

A printing apparatus having an ink application unit applying a first ink containing at least resin as a solid content onto a discharge medium, a reaction liquid application unit applying a reaction liquid reacting with a component in the ink to aggregate the solid content in the first ink onto the discharge medium, and a liquid absorbing unit for bringing a liquid absorbing member of a porous body into contact with an ink image formed by the ink and the reaction liquid on the discharge medium to absorb liquid to thereby reduce the amount of the liquid in the ink image, in which a layer is formed with the first ink and the reaction liquid on the discharge medium, and then a test pattern utilized for detection is printed by applying a second ink different from the first ink to a part of the layer by the ink application unit.

The herein disclosed processes provide a methodology for forming pre-cut gun wraps that may be formed specifically for a particular make and model of firearm or firearm accessory, and may be packaged and shipped to customer in a pre-cut form that allows for easy and adjustable non-permanent application to a firearm or firearm accessory. An exemplary embodiment of the herein disclosed processes includes the steps of: drawings a digital outline of a specific make and model of firearm; measuring a gun wrap surface area; translating the gun wrap surface area into a vector template; combining the vector template with digital artwork to determine a cut path; printing on an adhesive with the digital artwork; laminating the adhesive; cutting the pre-cut model specific gun wrap from the adhesive on a plotter/cutting machine using the cut path; and removing excess material from the pre-cut model specific gun wrap. The adhesive may be a pressure sensitive adhesive vinyl material.

The present invention relates to the field of dyeing keratin fibers and more particularly to the field of hair dyeing. The present invention relates to a process for the oxidation dyeing of keratin fibers, in particular human keratin fibers such as the hair, which consists in using on the said fibers i) a substrate comprising on its surface one or more oxidation dyes, and ii) an aqueous composition comprising one or more oxidizing agents. The present invention also relates to a process for preparing the said substrate thus pretreated.

The present invention relates to the field of dyeing keratin fibers and more particularly to the field of hair dyeing. The present invention relates to a process for the oxidation dyeing of keratin fibers, in particular human keratin fibers such as the hair, which consists in using on the said fibers i) a substrate comprising on its surface one or more oxidation dyes, and ii) an aqueous composition comprising one or more oxidizing agents. The present invention also relates to a process for preparing the said substrate thus pretreated.

The present invention relates to a decal for producing a decoration, comprising a non-leafing pigment layer and a first protective layer, characterized in that the decal is designed so that the non-leafing pigment layer can be applied closer to a substrate that the first protective layer. Furthermore, the present invention describes a method for producing the decal as well as its use.