A polymer composite device comprises a first thermoplastic covering layer of a polymer material with a first softening temperature and a second thermoplastic covering layer of a polymer material with a second softening temperature. The polymer composite device also comprises a carrier layer, which is arranged between the first covering layer and the second covering layer. An inner layer, which comprises at least a first thermoplastic inner layer ply of a polymer material with a third softening temperature, is arranged between the first covering layer and the second covering layer. The inner layer at least partially surrounds the carrier layer in a material-bonding manner. The third softening temperature is lower than the first softening temperature and lower than the second softening temperature.

A heated indenter is provided for indenting a personalized document to create a security impression thereon. The personalized document includes but is not limited to, identification cards, driver's licenses, credit and debit cards, and the like. The security impression can provide a visible or tactile security feature that can be recognized by one with little or no training. The security impression causes a laminate layer of the document to tear or disfigure when attempting to remove the laminate layer from a substrate of the document.

A heated indenter is provided for indenting a personalized document to create a security impression thereon. The personalized document includes but is not limited to, identification cards, driver's licenses, credit and debit cards, and the like. The security impression can provide a visible or tactile security feature that can be recognized by one with little or no training. The security impression causes a laminate layer of the document to tear or disfigure when attempting to remove the laminate layer from a substrate of the document.

The present disclosure provides an electronic badge and a housing for the same. The housing includes: a rear case defining a main board cavity, and formed with a display opening in communication with the main board cavity and a profile card receiving slot located outside the main board cavity; and a front case detachably disposed on the rear case to enclose the profile card receiving slot or both the display opening and the profile card receiving slot, a portion of the front case opposite the profile card receiving slot or both the display opening and the profile card receiving slot being made of a transparent material.

A modular card sleeve has a hollow main body and a flap. The hollow main body includes an opened end, a closed end, a front side, a rear side, a leading edge, and a trailing edge. The opened end is configured to receive a card for placement of the card within the hollow main body. The closed end is disposed opposite the opened end. The rear side has a first pouch and a second pouch disposed thereon. The first pouch has a first opening. The second pouch has a second opening. The first opening of the first pouch faces the second opening of the second pouch. The flap has a first wing, a second wing, and at least one connecting portion. The at least one connecting portion is disposed between the first wing and the second wing. The at least one connecting portion is disposed on the front side.

Smart processing devices and systems for controlling functionality of smart processing devices are provided. In some examples, a smart processing device may include a central segment and a plurality of removable segments. The removable segments may be connected to the central segment in a plurality of different configurations. In some examples, each configuration may enable or disable functionality associated with the smart processing device. Further, a system may receive data associated with a current physical configuration of a smart processing device. The current physical configuration data may be compared to pre-stored configuration data in order to identify one or more functions to be enabled or disabled for the smart processing device. The system, computing platform, or the like, may generate an instruction, command or signal enabling or disabling functionality and may transmit the signal to the smart processing device for execution and control of functions provided by the smart processing device.

Smart processing devices and systems for controlling functionality of smart processing devices are provided. In some examples, a smart processing device may include a central segment and a plurality of removable segments. The removable segments may be connected to the central segment in a plurality of different configurations. In some examples, each configuration may enable or disable functionality associated with the smart processing device. Further, a system may receive data associated with a current physical configuration of a smart processing device. The current physical configuration data may be compared to pre-stored configuration data in order to identify one or more functions to be enabled or disabled for the smart processing device. The system, computing platform, or the like, may generate an instruction, command or signal enabling or disabling functionality and may transmit the signal to the smart processing device for execution and control of functions provided by the smart processing device.

In part, the disclosure relates to articles of manufacture, such as banknote, that include one or more precious materials formed as unitary structure and that is secured within the article and disposed below one or more tamper resistant elements such that the article is self-authenticating. The articles may include polymer-based notes, instruments and other substantially planar articles defined by a boundary and an upper surface and a lower surface such that a precious material is at least in part co-planar with a third surface sandwiched therebetween. The disclosure also relates to a flexible precious metal storage apparatus that includes three layers, one layer defines a cavity. The cavity is sized and arranged to have a precious metal layer deposited, printed, injected, grown, or otherwise at least partially surrounded by the boundary of the geometric shape.

The mechanically stable value or security document 2000 according to the invention comprising an electric circuit 1270 is characterised by the following features: the document is formed of at least three document layers which are arranged in a stack 1700 and which are connected together face-to-face by a joining method, wherein a first document layer is formed by a circuit carrier layer 1200 which supports the electric circuit 1270, at least one second document layer is formed in each case by a compensation layer 1100 which has at least one opening 1120 and/or recess, and at least one third document layer is formed in each case by an outer cover layer 1300. The first 1200, the at least one second 1100, and the at least one third document layer 1300 are formed from a fibre composite material.

The mechanically stable value or security document 2000 according to the invention comprising an electric circuit 1270 is characterised by the following features: the document is formed of at least three document layers which are arranged in a stack 1700 and which are connected together face-to-face by a joining method, wherein a first document layer is formed by a circuit carrier layer 1200 which supports the electric circuit 1270, at least one second document layer is formed in each case by a compensation layer 1100 which has at least one opening 1120 and/or recess, and at least one third document layer is formed in each case by an outer cover layer 1300. The first 1200, the at least one second 1100, and the at least one third document layer 1300 are formed from a fibre composite material.