A security element, e g. for an ID card (7) or passport, banknote, ticket, etc, comprises a plurality of superposed layers (8a, 8b, 8c, 8d) and a security image or object (1, 2, 3, 4, 5, 6, 7) comprising a plurality of discrete security components, each said discrete security component constituting or providing a portion of the complete security image or object, which portion is less than the hole of the security image or object, wherein each said discrete security component is provided or formed on or within a respective one of the said plurality of superposed layers of the element (7). The layers can be laminated together. The components can be: a security rainbow hologram/DOVID (1); a tactile security feature (2); a 3D holographic optical element (3); an IR visible printing (4); an UV visible printing (5); a colour switch printing (6).

A security element, e g. for an ID card (7) or passport, banknote, ticket, etc, comprises a plurality of superposed layers (8a, 8b, 8c, 8d) and a security image or object (1, 2, 3, 4, 5, 6, 7) comprising a plurality of discrete security components, each said discrete security component constituting or providing a portion of the complete security image or object, which portion is less than the hole of the security image or object, wherein each said discrete security component is provided or formed on or within a respective one of the said plurality of superposed layers of the element (7). The layers can be laminated together. The components can be: a security rainbow hologram/DOVID (1); a tactile security feature (2); a 3D holographic optical element (3); an IR visible printing (4); an UV visible printing (5); a colour switch printing (6).

A manufacturing process that allows for the transfer of labels formed from polarizer film to end-use products. The polarizer film is covered by a masking layer that is typically die cut to create the labels from the continuous sheet of film. Here, an additional covering layer (or layers) of a relatively stiff material is disposed over the masking layer. The addition of the covering layer results in the processed polarizer film being less susceptible to damage (related to unwanted bending) during further processing and/or shipment. Advantageously, the covering layer improves the ability to remove individual labels from the film, particularly with respect to attempting to peel off the thin masking layer.

A manufacturing process that allows for the transfer of labels formed from polarizer film to end-use products. The polarizer film is covered by a masking layer that is typically die cut to create the labels from the continuous sheet of film. Here, an additional covering layer (or layers) of a relatively stiff material is disposed over the masking layer. The addition of the covering layer results in the processed polarizer film being less susceptible to damage (related to unwanted bending) during further processing and/or shipment. Advantageously, the covering layer improves the ability to remove individual labels from the film, particularly with respect to attempting to peel off the thin masking layer.

A display medium including a first layer, a second layer, and a third layer, wherein: a part or an entirety of the first layer, a part or an entirety of the second layer, and a part or an entirety of the third layer are stacked in a thickness direction in this order; the first layer is a layer that is capable of reflecting circularly polarized light having a rotation direction D1 and allowing to pass therethrough circularly polarized light having a rotation direction D2, which is a direction opposite to the rotation direction D1; the second layer is a phase difference layer; and the third layer is a layer that is capable of reflecting circularly polarized light whose rotation direction is the rotation direction D1 and allowing to pass therethrough circularly polarized light whose rotation direction is the rotation direction D2.

Disclosed embodiments may relate to a time-dependent color-changing label for a product. The label may include a first layer comprising a plurality of particles, the particles comprising a time dependent color-changing material that changes color after a predetermined time period, the predetermined time period being greater than one month. The label may also include an attachment structure attaching the first layer to the product. In certain embodiments, the first layer may include a polymer, and the particles may include glass microspheres containing the time-dependent color changing material. The particles may be embedded in the polymer.

Disclosed embodiments may relate to a time-dependent color-changing label for a product. The label may include a first layer comprising a plurality of particles, the particles comprising a time dependent color-changing material that changes color after a predetermined time period, the predetermined time period being greater than one month. The label may also include an attachment structure attaching the first layer to the product. In certain embodiments, the first layer may include a polymer, and the particles may include glass microspheres containing the time-dependent color changing material. The particles may be embedded in the polymer.

A method for producing a decorative element and uses of a decorative element. A polarizing layer functioning as an analyzer is applied to a transparent optical carrier material and a transparent optical functional layer is applied as an image-forming layer including an optically anisotropic material. By spatially structuring the functional layer, a targeted location-dependent dependency of material properties of the optically anisotropic material is created for producing the image-forming layer. One or several decorative elements produced can each be introduced into a light field of a lighting device in a desired shape, size and quantity and having settable image motifs (image structures) and being disposed at different spatial distances and being freely disposable. The decorative element produced is intended to be used as an architectural element for creating light-optical effects in the exterior area of buildings, as a design element for interior design or for object design.

A method for producing a decorative element and uses of a decorative element. A polarizing layer functioning as an analyzer is applied to a transparent optical carrier material and a transparent optical functional layer is applied as an image-forming layer including an optically anisotropic material. By spatially structuring the functional layer, a targeted location-dependent dependency of material properties of the optically anisotropic material is created for producing the image-forming layer. One or several decorative elements produced can each be introduced into a light field of a lighting device in a desired shape, size and quantity and having settable image motifs (image structures) and being disposed at different spatial distances and being freely disposable. The decorative element produced is intended to be used as an architectural element for creating light-optical effects in the exterior area of buildings, as a design element for interior design or for object design.

A manufacturing process that allows for the transfer of labels formed from a film to end-use products. The film is covered by a masking layer that is typically die cut to create the labels from the continuous sheet of film. Here, an additional covering layer (or layers) of a relatively stiff material is disposed over the masking layer. The addition of the covering layer results in the processed film being less susceptible to damage (related to unwanted bending) during further processing and/or shipment. Advantageously, the covering layer improves the ability to remove individual labels from the film, particularly with respect to attempting to peel off the thin masking layer.