A decorative member that is a three-dimensional modeled article comprises a sheet, a lens part, and an image-forming part. The sheet has a light-transmitting property and has a first sheet surface formed as a curved surface. The lens part is provided so as to curve along the first sheet surface. The lens part comprises a plurality of protruding lenses disposed in parallel. The image-forming part comprises a specific image depiction region in which a specific image is depicted. A minimum value of a width of the specific image depiction region is in a range of 2 mm or more and 20 mm or less. The curved surface has a first region to a third region having different normal directions and has a shape in which one of the normal directions of the respective regions is inclined with respect to a plane including the other two normal directions.

A decorative product includes a decorative layer containing nickel, chromium, and molybdenum as constituent components. The molybdenum content in the decorative layer is 50 atm % or less. The total content of nickel, chromium, and molybdenum in the decorative layer is 95 atm % or more.

A decorative product includes a decorative layer containing nickel, chromium, and molybdenum as constituent components. The molybdenum content in the decorative layer is 50 atm % or less. The total content of nickel, chromium, and molybdenum in the decorative layer is 95 atm % or more.

Provided are a decorative glass panel having a three-dimensional metal design and a manufacturing method for the decorative glass panel, the method exhibiting enhanced productivity. A decorative glass panel 10 includes: a glass substrate 15; an adhesive layer 11 formed on the glass substrate 15; a non-uniform pattern layer 12 formed on the adhesive layer 11; and a vapor-deposited metal layer 13 formed on the non-uniform pattern layer 12. In the glass substrate 15, a section that is a portion of a back surface of the glass substrate 15 and that is bent from a flat surface section 30 to an upright section 31 forms a curved surface 32. The non-uniform pattern layer 12 has, in a surface facing the vapor-deposited metal layer 13, which is a top surface thereof, a non-uniform pattern formed by depressions 40 and protrusions 41.

A unisometric reflection display has a light transmissivity and includes reflectors included in a reflector holding layer of a thin film form. The reflector holding layer has a plurality of sections divided in a direction of a plane of the reflector holding layer. In each of at least two of the sections, reflectors inside incline in a fixed direction and a fixed angle. A direction and/or an angle in which reflectors incline differ between the two sections.

A unisometric reflection display has a light transmissivity and includes reflectors included in a reflector holding layer of a thin film form. The reflector holding layer has a plurality of sections divided in a direction of a plane of the reflector holding layer. In each of at least two of the sections, reflectors inside incline in a fixed direction and a fixed angle. A direction and/or an angle in which reflectors incline differ between the two sections.

In a resin decorative part, a carbon decorative panel includes a clear decoration having a body transmitting light and including a carbon-toned irregular surface provided on the body and having a carbon-toned pattern formed with protrusions and depressions. The carbon-toned irregular surface has a plurality of unit patterns that constitute a weave of pseudo carbon fiber bundles presenting carbon fiber bundles in a pseudo manner, as the protrusions and depressions that form the carbon-toned pattern. The unit patterns each have a top portion positioned at the center in the extending direction of the pseudo carbon fiber bundle. A plurality of unit patterns include at least two kinds of unit patterns with different top portion inclinations, where the top portion inclination is the inclination of the long axis along the long side direction of the top portion relative to the reference line along the extending direction.

A method for printing on at least partially transparent containers, wherein, in a first printing step, a first printing image is printed onto the container by the application of at least one printing ink, and wherein, in a second printing step, a second printing image is printed onto the container by the application of at least one printing ink, wherein the printing images are printed at least partially covering one another, and specifically in such a way that ink layers are applied in a temporal offset sequence onto the container, wherein a first ink layer is allocated to the first printing image and a second ink layer is allocated to the second printing image, and that between the first and second printing image a reflection layer is at least partially provided, by means of which the printing images are at least partially optically separated from one another.

A sparkling fabric includes: a fabric substrate; and a tri-layer adhered to the fabric substrate. The tri-layer includes: an adhesive layer that adheres the tri-layer to the fabric substrate; an exposed design layer; and a metal plating layer between the exposed design layer and the adhesive layer. The tri-layer is distributed as a plurality of separable and identifiable tri-layer pieces across the fabric substrate such that the distribution of tri-layer pieces has a density on the order of 15-25 pieces per centimeter squared (pcs/cm2) and a size of a piece is less than 1 millimeter (mm).

A sparkling fabric includes: a fabric substrate; and a tri-layer adhered to the fabric substrate. The tri-layer includes: an adhesive layer that adheres the tri-layer to the fabric substrate; an exposed design layer; and a metal plating layer between the exposed design layer and the adhesive layer. The tri-layer is distributed as a plurality of separable and identifiable tri-layer pieces across the fabric substrate such that the distribution of tri-layer pieces has a density on the order of 15-25 pieces per centimeter squared (pcs/cm2) and a size of a piece is less than 1 millimeter (mm).