Transfer assemblies, sheets, and methods for manufacturing the same, are provided for transferring images to articles, such as textiles, fabric or the like. A transfer sheet comprises a support layer, such as a backing paper, and an image transfer layer that includes a binder and an ink receptor. The image transfer layer further includes a release layer between the support layer and the image transfer layer. The release layer comprises a crosslinking agent and is configured so that the image transfer layer can be detached from the backing paper prior to the transfer of the image to the substrate or article. This allows the use of thin parchment paper as the protective cover for the image layer during the transfer process instead of the backing paper, which accelerates and enhances the transfer of heat to the image transfer layer and the article resulting in deeper penetration of the ink.

A The invention relates to a transfer film (10), which has a carrier film (12) having a master structure varnish (18) and a transfer ply (14), arranged on the carrier film (12) and detachable from the carrier film (12), including a topcoat (16), wherein the master structure varnish (18) is arranged on the carrier film (12) on its side facing the transfer ply (14) and has a master structure and wherein a master structure is molded on the carrier film (12) on its side facing the transfer ply (14) and wherein the topcoat (16) includes a structuring which has a structure complementary to the master structure.

An applicator for transferring an indicia to a substrate includes an ink layer forming the indicia. A white layer is disposed on the ink layer. An adhesive layer is disposed on the white layer. The adhesive layer is configured to adhere the ink layer and the white layer to the substrate.

The present invention simplifies structures of a transfer material and a printed material both having an image based on a three-dimensional micro-structure, making manufacture of the materials more efficient and reducing prices thereof. An ink receiving layer and an adhesive are provided on a substrate of the transfer material. The ink receiving layer is of an air gap absorption type and has an image based on a three-dimensional micro-structure. Aggregates of the adhesive are discretely arranged on a front surface of the ink receiving layer.

A heat transfer label is disclosed. The heat transfer label comprises a special heat stable release which strongly adheres to the carrier, offers a highly ink and adhesive wettable surface, stays intact under heat transfer bonding conditions, releases easily, leaves no contamination on the transfer or fabric, and enables durable replication of the release surface finish onto the resultant transfers.

Device for affixing a visual marking on a surface to be marked of a rigid support (1) that is ready for use, which comprises an assembly that is essentially inelastic, exhibits a certain degree of flexibility, forms a flat and thin cohesive multilayer stack that includes a protective back (6), a marked support (7), a stencil (8), and an application obverse (9), limited by a peripheral edge (22) with an adhesion of its rear face (23) and of the front face of the stencil (21) that canduring the use of the device (1)allow the removal of the application obverse (9) by peeling.

Heat transfers are provided that have indicia for labeling or enhancing the appearance of performance fabric material, such as apparel including sportswear fabrics with elastomeric characteristics. The label assembly includes a support portion with a label carrier layer and a release coating, along with a transfer portion over the support portion release coating that includes an ink design and a hot melt adhesive layer. The hot melt adhesive layer securely transfers the ink design to the fabric at relatively low temperature and pressure conditions for a relatively low dwell time.

Apparatuses and methods for applying a transfer material 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 cases, the apparatuses and methods involve providing a deposition device, such as a printing device; providing a transfer component; depositing a material onto a portion of the transfer component with the deposition device; modifying the portion of the transfer component with the transfer material thereon to conform the transfer component to at least a portion of the surface of the three-dimensional article; and transferring the transfer material onto the surface of the article.

A fast and reliable single or dual transfer process is provided. Unlike prior art foil transfer techniques, which rely on the very fragile nature of the transferred pattern and/or shape to obtain a clean break at the die edge, the present invention is directed toward relatively non-tearable or tear resistant materials that can be difficult or impossible to effectively transfer using these known foil transfer techniques. This problem is addressed by precision cutting, for example, patches in the relatively non-tearable or tear resistant material positioned on a carrier substrate and in one exemplary embodiment transferring areas surrounding the cut patches to a sacrificial carrier substrate. The resulting sharply defined, precision cut patches left on the carrier substrate may then be transferred to objects to be protected such as banknotes.

Transfer assemblies, sheets, and methods for manufacturing the same, are provided for transferring images to articles, such as textiles, fabric or the like. A transfer sheet comprises a support layer, such as a backing paper, and an image transfer layer that includes a binder and an ink receptor. The image transfer layer further includes a release layer between the support layer and the image transfer layer. The release layer comprises a crosslinking agent and is configured so that the image transfer layer can be detached from the backing paper prior to the transfer of the image to the substrate or article. This allows the use of thin parchment paper as the protective cover for the image layer during the transfer process instead of the backing paper, which accelerates and enhances the transfer of heat to the image transfer layer and the article resulting in deeper penetration of the ink.