One or more aspects of the present disclosure provide optical element transfer structures that include an optical element releasably coupled with a transfer medium and methods of making and using the optical element transfer structures. The optical element transfer structures can be used to dispose an optical element onto an article, whereby the optical element imparts a structural color to the article.

Methods of making artificial gemstones that include providing a base body having a sublimation surface composed of a sublimatable material. A transfer print composed of one or more sublimation dye inks is received. The transfer print provides, for example, a translucent multicolor gradation pattern or a simulation of visual surface characteristics of a finished natural gemstone. The transfer print is contacted with the sublimation surface and pressure is provided between the print and the base body and heat is applied to the transfer print and base body for an amount of time sufficient for the transfer print to sublimate into the sublimation surface so as to create a sublimation print in the sublimatable material. Finishing steps may be performed after creating the sublimation print. The base body may be, for example, translucent or opaque and/or a component of a multiplet gemstone. Artificial gemstones having sublimation prints are also disclosed.

Apparatuses and methods for applying a transfer material from a transfer component onto the surface of an article are disclosed, including apparatuses and methods of transfer printing on and/or decorating three-dimensional articles, as well as the articles printed and/or decorated thereby. In some embodiments, the method may utilize a printer such as an inkjet printer. In some cases, the transfer material may be a UV curable ink and/or adhesive. When the transfer material is UV curable, the transfer component may be permeable to UV radiation to allow curing of the ink and/or adhesive therethrough. UV curable adhesives including thiol-acrylate and thiol-ene acrylate inkjet-able adhesives are disclosed. The UV curable adhesive may be colored (such as with white pigment) in lieu of providing a base (white) ink layer so that more UV radiation will be able to pass through the ink layer(s) in order to reach the adhesive.

One or more aspects of the present disclosure are directed to bladders that incorporate a multi-layer optical film that impart a structural color to the bladder. The present disclosure is also directed to articles including the bladders having a multi-layer optical film, and methods for making articles and bladders having a multi-layer optical film.

A heat transfer film having a) a carrier film, b) at least one coating layer arranged directly on the carrier film, and c) at least one hot-sealable polymer adhesive layer is disclosed. The coating layer is based on a non-aqueous, radiation-curable, liquid composition which contains at least 60 wt %, based on the total weight of the composition, of curable constituents selected from organic oligomers which have ethylenically unsaturated double bonds. Use of the heat transfer films for the dry coating of surfaces, production of such heat transfer films, and methods for coating or lacquering surfaces of objects using the heat transfer films are also disclosed.

One or more aspects of the present disclosure are directed to bladders that incorporate a multi-layer optical film that impart a structural color to the bladder. The present disclosure is also directed to articles including the bladders having a multi-layer optical film, and methods for making articles and bladders having a multi-layer optical film.

One or more aspects of the present disclosure are directed to bladders that incorporate a multi-layer optical film that impart a structural color to the bladder. The present disclosure is also directed to articles including the bladders having a multi-layer optical film, and methods for making articles and bladders having a multi-layer optical film.

A method for manufacturing a decorative object, which enables manufacturing of a decorative object, on which a random concavo-convex structure is formed, such as non-glossy finish, with a uniform product appearance, while maintaining operating efficiency is described. The method for manufacturing a decorative object includes the steps of coating a concavo-convex surface having a concavo-convex structure with a coating solution including a resin component, transferring the concavo-convex structure to a transfer surface to form a resin layer having the transfer surface, and to obtain a transfer member comprising the resin layer, and decorating a surface for decoration by pressing the transfer surface of the transfer member against the surface for decoration including a thermoplastic resin while heating.

Methods of making artificial gemstones that include providing a base body having a sublimation surface composed of a sublimatable material. A transfer print composed of one or more sublimation dye inks is received. The transfer print provides, for example, a translucent multicolor gradation pattern or a simulation of visual surface characteristics of a finished natural gemstone. The transfer print is contacted with the sublimation surface and pressure is provided between the print and the base body and heat is applied to the transfer print and base body for an amount of time sufficient for the transfer print to sublimate into the sublimation surface so as to create a sublimation print in the sublimatable material. Finishing steps may be performed after creating the sublimation print. The base body may be, for example, translucent or opaque and/or a component of a multiplet gemstone. Artificial gemstones having sublimation prints are also disclosed.

Decals with dimensional offsets are disclosed. The decals may be part of a decal kit or may be applied to an article. The decals include an overlay having multiple dimensional spacers. When applied to an article, the decal overlay bonds to the article, securing the dimensional spacers between the overlay and the article creating dimensional offsets. The dimensional offsets are positioned on an interior surface of the article so that contact with a wearer's skin is minimized, reducing the perception of cling.