A method for manufacturing a decorative sheet may involve providing a first printed substrate having a first decorative image printed using an analog printing technique. A digital copy of the first decorative image may be acquired to obtain a first master image. A first color profile of the first decorative image may be obtained. The first master image may be printed on a second substrate using a digital printing technique to form a second decorative image. A second color profile of the second decorative image may be obtained. The first and the second color profiles may be compared to determine a similarity index. If the similarity index is below a threshold value, then an image processing operation may be performed to obtain a second master image. The first and the second printed substrates may be subjected to a predetermined operation.

A method for manufacturing a decorative sheet may involve providing a first printed substrate having a first decorative image printed using an analog printing technique. A digital copy of the first decorative image may be acquired to obtain a first master image. A first color profile of the first decorative image may be obtained. The first master image may be printed on a second substrate using a digital printing technique to form a second decorative image. A second color profile of the second decorative image may be obtained. The first and the second color profiles may be compared to determine a similarity index. If the similarity index is below a threshold value, then an image processing operation may be performed to obtain a second master image. The first and the second printed substrates may be subjected to a predetermined operation.

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.

Method of manufacturing a substrate with a cut thermal film comprises obtaining an input digital image of a design to be transferred to the substrate; storing the input image in memory; rendering design elements of the design as a single output image; based upon a bleed size value, a maximum number of negative areas, a maximum number of positive areas, and attribute values: resizing the image to include a border for bleed; filling transparent areas of the image with the substrate attribute values; creating a cutting path; creating a mask image; inverting the mask image; modifying the mask image to adjust fill areas around details, to limit negative areas to be less than the maximum number of negative areas, and to limit positive areas to be less than the maximum number of positive areas; creating cutting path data in memory as a vector path outlining the mask image.

An apparatus for applying a decal to a nail of a human includes a housing having a cartridge recess, a cartridge that includes a supply spool around which a tape is at least partially wound, the tape having at least one decal that is transferrable to a nail of a human digit, and a take-up spool that includes a tape grip that holds an end of the tape, wherein the cartridge is removably mountable in the cartridge recess, an actuator coupled to the housing and moveable between an unactuated position and an actuated position, a tape advancement arrangement and a decal actuation surface are provided. The tape advancement arrangement coupled to the actuator and arranged to rotate the take-up spool to extend the tape from the supply spool during movement of the actuator between the unactuated position and the actuated position.

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.

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.

The present invention relates to: an ink-receiving layer composition for a decorative member, the composition comprising an acrylic emulsion, a metal salt, and organic particles or inorganic particles; a decorative member comprising a base layer, a printing layer formed on the base layer, and an ink-receiving layer disposed between the base layer and the printing layer and formed of a composition comprising an acrylic emulsion, a metal salt, and organic particles or inorganic particles; and a method for manufacturing a decorative member, the method comprising a step for preparing a base layer in a flat state, a step for coating a composition comprising an acrylic emulsion, a metal salt, and organic particles or inorganic particles on the base layer, a step for drying or UV curing the coated composition to form an ink-receiving layer, and a step for forming a printing layer on the ink-receiving layer.