In one aspect, an article includes a first sleeve formed from a first heat-shrinkable polymer sheet, the first heat-shrinkable polymer sheet having opposed first and second edges, wherein the first sleeve is formed with a first seam proximate the first edge. A portion of the first heat-shrinkable polymer sheet extends between the first sleeve and the second edge. A tag is bonded to the portion of the first heat-shrinkable polymer sheet proximate the second edge at a first overlap zone of the tag and the portion of the first heat-shrinkable polymer sheet. In another aspect, an article includes a heat-shrinkable polymer sheet and a tag bonded to the sheet. The heat-shrinkable polymer sheet has a central area and a plurality of slits disposed through the sheet, at least one of the plurality of slits oriented to partially surround the central area.

In one aspect, an article includes a first sleeve formed from a first heat-shrinkable polymer sheet, the first heat-shrinkable polymer sheet having opposed first and second edges, wherein the first sleeve is formed with a first seam proximate the first edge. A portion of the first heat-shrinkable polymer sheet extends between the first sleeve and the second edge. A tag is bonded to the portion of the first heat-shrinkable polymer sheet proximate the second edge at a first overlap zone of the tag and the portion of the first heat-shrinkable polymer sheet. In another aspect, an article includes a heat-shrinkable polymer sheet and a tag bonded to the sheet. The heat-shrinkable polymer sheet has a central area and a plurality of slits disposed through the sheet, at least one of the plurality of slits oriented to partially surround the central area.

In one aspect, an article includes a first sleeve formed from a first heat-shrinkable polymer sheet, the first heat-shrinkable polymer sheet having opposed first and second edges, wherein the first sleeve is formed with a first seam proximate the first edge. A portion of the first heat-shrinkable polymer sheet extends between the first sleeve and the second edge. A tag is bonded to the portion of the first heat-shrinkable polymer sheet proximate the second edge at a first overlap zone of the tag and the portion of the first heat-shrinkable polymer sheet. In another aspect, an article includes a heat-shrinkable polymer sheet and a tag bonded to the sheet. The heat-shrinkable polymer sheet has a central area and a plurality of slits disposed through the sheet, at least one of the plurality of slits oriented to partially surround the central area.

In one aspect, an article includes a first sleeve formed from a first heat-shrinkable polymer sheet, the first heat-shrinkable polymer sheet having opposed first and second edges, wherein the first sleeve is formed with a first seam proximate the first edge. A portion of the first heat-shrinkable polymer sheet extends between the first sleeve and the second edge. A tag is bonded to the portion of the first heat-shrinkable polymer sheet proximate the second edge at a first overlap zone of the tag and the portion of the first heat-shrinkable polymer sheet. In another aspect, an article includes a heat-shrinkable polymer sheet and a tag bonded to the sheet. The heat-shrinkable polymer sheet has a central area and a plurality of slits disposed through the sheet, at least one of the plurality of slits oriented to partially surround the central area.

Systems and methods for processing RFID element or chip components allow for the use of relatively common and inexpensive vibratory feeder handling equipment that require a much lower capital cost than systems incorporating technology such as flip chipping or direct punching down approaches. Instead, vibratory feeders provide feed handling equipment for the RFID element or chip components, which are subsequently fed and combined with RFID antennas in forming RFID devices such as RFID tags. The RFID chips are formed on or of non-silicon substrates such as printed parts. These substrates are relatively flexible, of materials such as polymeric sheets or other plastics. A stream of the RFID components is presented at a transfer station to an ordered series of RFID antennas, with the RFID components and antennas being combined in forming RFID devices.

In one aspect, an article includes a first sleeve formed from a first heat-shrinkable polymer sheet, the first heat-shrinkable polymer sheet having opposed first and second edges, wherein the first sleeve is formed with a first seam proximate the first edge. A portion of the first heat-shrinkable polymer sheet extends between the first sleeve and the second edge. A tag is bonded to the portion of the first heat-shrinkable polymer sheet proximate the second edge at a first overlap zone of the tag and the portion of the first heat-shrinkable polymer sheet. In another aspect, an article includes a heat-shrinkable polymer sheet and a tag bonded to the sheet. The heat-shrinkable polymer sheet has a central area and a plurality of slits disposed through the sheet, at least one of the plurality of slits oriented to partially surround the central area.

Disclosed are an apparatus and a method for attaching an identification tag to a solid surface and protecting the identification tag. The identification tag has a first surface and a second surface opposite the first surface. The method comprises: positioning the first surface of the identification tag in contact with an attachment site of the solid surface; applying a predetermined amount of a first adhesive substance on the second surface, the first adhesive substance being plastic during application and curable after application, the first adhesive substance having a first viscosity at the time of application; forming the first adhesive substance, such that the first adhesive substance covers the identification tag and abut a part of the solid surface circumscribing the identification tag; and curing the first adhesive substance.

A method for the production of plastic products includes a loading step in which plastic material in granular form is inserted in a containing element, and a heating step, in which the plastic material in granular form is heated until the melting temperature is reached. The method also includes an extrusion step in which the plastic material is conveyed toward extrusion means and extruded to form at least one layer of a film of plastic material and a printing step in which, by means of printing means, at least one layer of printing material is deposited on the film of plastic material to define information associated with the film of plastic material. During the printing step the printing means deposit electrically conductive material on the film of plastic material, according to a predetermined conformation able to define a predetermined electric circuit. The electric circuit comprises electronic memorization means configured to memorize at least predetermined information associated with the type of plastic product to be made.

Systems and methods for processing RFID element or chip components allow for the use of relatively common and inexpensive vibratory feeder handling equipment that require a much lower capital cost than systems incorporating technology such as flip chipping or direct punching down approaches. Instead, vibratory feeders provide feed handling equipment for the RFID element or chip components, which are subsequently fed and combined with RFID antennas in forming RFID devices such as RFID tags. The RFID chips are formed on or of non-silicon substrates such as printed parts. These substrates are relatively flexible, of materials such as polymeric sheets or other plastics. A stream of the RFID components is presented at a transfer station to an ordered series of RFID antennas, with the RFID components and antennas being combined in forming RFID devices.

A tag for attachment to an animal including: a transponder casing (40) housing a transponder; a cartridge (12) for housing the transponder casing; a female component (10) and a male component (28) adapted to engage one another; said male component (28) having a pair of penetrating members (32, 34) and said female component (10) having a pair of apertures (14, 16), each aperture arranged to receive and retain a respective penetrating member when applied by an applicator through skin of the animal; wherein the cartridge (12) and transponder casing (40) are encapsulated within said tag to prevent dislodgment, movement or damage to the transponder.