A sealing element of flexible foam which includes at least three sealing tape sections which are arranged next to each other in a functional direction of the sealing element. At least one first barrier layer section and at least one second barrier layer section are each accommodated between two adjacent sealing tape sections. The barrier layer sections connect the adjacent sealing tape sections to each other. The first barrier layer section forms a loop in an area of the bottom surface of the sealing element and the second barrier layer section forms a loop in an area of the top surface of the sealing element.

A method for the production of a sealing tape roll of flexible, compressible foam with at least one barrier layer extending in the radial direction, which is arranged axially between two layers of foam. The method includes providing a foam web of a flexible foam; applying a first barrier layer to a first surface of the foam web; and introducing at least one first cut into the first surface of the foam web and introducing at least one second cut into a second surface of the foam web opposite the first surface to form parallel sealing tape strips. A connecting section remains between two adjacent sealing tape strips. The sealing tape strips are then folded over in the area of the connecting sections to produce a foam-barrier layer web, and the foam-barrier layer web is wound up into a sealing tape roll.

A display device includes a flexible display panel; a rolling driver including a rolling shaft connected to the flexible display panel and a rotation motor which rotates the rolling shaft; a housing which receives the flexible display panel in a rolled state, where a first opening is defined in the housing for unrolling and rolling the flexible display panel; a rolling stopper coupled to the flexible display panel; and a rolling controller which controls the rolling driver such that the rotation motor rotates in a clockwise or counterclockwise direction. The rolling controller rotates the rotating motor in a direction opposite to a rotating direction of the rotation motor for a previous rolling to unroll the flexible display panel. The rolling controller rotates the rotating motor in a same direction as a rotating direction of the rotation motor for a previous unrolling to roll the flexible display panel.

A display device includes a flexible display panel; a rolling driver including a rolling shaft connected to the flexible display panel and a rotation motor which rotates the rolling shaft; a housing which receives the flexible display panel in a rolled state, where a first opening is defined in the housing for unrolling and rolling the flexible display panel; a rolling stopper coupled to the flexible display panel; and a rolling controller which controls the rolling driver such that the rotation motor rotates in a clockwise or counterclockwise direction. The rolling controller rotates the rotating motor in a direction opposite to a rotating direction of the rotation motor for a previous rolling to unroll the flexible display panel. The rolling controller rotates the rotating motor in a same direction as a rotating direction of the rotation motor for a previous unrolling to roll the flexible display panel.

A rolled graphite sheet includes a rod-shaped body and a graphite sheet having a length of 1 m or more and a width shorter than the length. The graphite sheet is wound around the rod-shaped body and is rolled in a length direction. When a length direction-end of the graphite sheet is pulled with a force of 1.5 N/cm in a direction parallel to a tangent of a cross-sectional circle of the rolled graphite sheet while fixing the rod-shaped body, the end moves 5 mm or less in the direction parallel to the tangent of the circle.

A rolled graphite sheet includes a rod-shaped body and a graphite sheet having a length of 1 m or more and a width shorter than the length. The graphite sheet is wound around the rod-shaped body and is rolled in a length direction. When a length direction-end of the graphite sheet is pulled with a force of 1.5 N/cm in a direction parallel to a tangent of a cross-sectional circle of the rolled graphite sheet while fixing the rod-shaped body, the end moves 5 mm or less in the direction parallel to the tangent of the circle.

The present disclosure provides systems and methods for storing and dispensing nanostructure material that can maintain the morphology of the nanostructures. The nanostructures are disposed on a flexible substrate that is spooled into a roll. The substrate can be provided with raised edges that space adjacent portions from each other in the roll to protect the nanostructures from damage or misalignment. The roll can be provided to a cassette that can be sealed to protect the nanostructure material from exposure to unwanted environments and to protect individuals from exposure to the nanostructure material. The substrate can be unrolled in the cassette to permit the nanostructure material to be applied to an item outside the cassette while maintaining the morphology of the nanostructures. Various controls can be provided to unroll the substrate and deposit the nanostructure material with high precision and repeatability.

The present disclosure provides systems and methods for storing and dispensing nanostructure material that can maintain the morphology of the nanostructures. The nanostructures are disposed on a flexible substrate that is spooled into a roll. The substrate can be provided with raised edges that space adjacent portions from each other in the roll to protect the nanostructures from damage or misalignment. The roll can be provided to a cassette that can be sealed to protect the nanostructure material from exposure to unwanted environments and to protect individuals from exposure to the nanostructure material. The substrate can be unrolled in the cassette to permit the nanostructure material to be applied to an item outside the cassette while maintaining the morphology of the nanostructures. Various controls can be provided to unroll the substrate and deposit the nanostructure material with high precision and repeatability.

A ribbon supply includes a supply spool and a ribbon material wound onto the supply spool. A tack down bond prevents unwinding of the ribbon material from the supply spool. A leader film extends from the tack down bond, with the leader film having a length that is sufficient to allow installation of the ribbon supply and connection of the leader film to a take-up spool without detaching the tack down bond.

The present disclosure is directed to a paper towel product that will capably separate from the paper towel roll as a full sheet, a half sheet or a quarter sheet. A method of making a paper towel with machine direction perforations is also disclosed.