A bag resealing device that is reusable for use with prepackaged bags to prevent spillage and/or aid in food preservation. The reusable nature of the bag resealing device is a result of a plurality of paired adhesive strips and the plurality of perforations wherein each pair of adhesive strips can be individually exposed to allow the bag resealing device to be attached to a different prepackaged bag. The perforations enable the bag resealing device to have the used paired adhesive strips to be torn off to allow the removal of the used pair of adhesives.

A multilayer tape is provided. A method of masking a surface is also provided. The multilayer tape includes an inner layer, at least one middle layer, and an outer carrier layer. The inner layer has a pair of parallel adhesive strips demarking an inner gap having a predetermined width. The middle layer is adhered to the inner layer and has a pair of parallel adhesive strips demarking a middle gap narrower than the inner gap. The outer carrier layer is adhered to the middle layer. The method includes applying a multilayer tape system to a surface and removing the outer carrier layer to expose a preselected gap width. The multilayer tape system includes an inner layer, at least one middle layer, and an outer carrier layer.

A method for ablating a label having a topcoat layer and a sacrificial layer includes irradiating at least one target region on the topcoat layer with a laser beam and further includes removing the topcoat layer and at least a portion of the sacrificial layer in the at least one target region.

The present invention relates to an adhesive sheet made of a fiber material, and a method for manufacturing same, the sticky adhesive mesh comprising mesh fabric, an ink layer printed on the upper surface of the mesh fabric, a first adhesive layer coated on the lower surface of the mesh fabric, an absorption layer stacked on the lower surface of the first adhesive layer, a second adhesive layer coated on the lower surface of the absorption layer, and release paper stacked on the lower surface of the second adhesive layer, wherein the mesh fabric is made of fabric woven by crossing wefts and warps and is formed to be porous by having gaps between the wefts and the warps, the first adhesive layer is formed to have a plurality of adhesive layers that are repeatedly coated to be stacked.

A laterally-coiled adhesively-retained low force backer for installation prior to application of a liquid sealant with sufficient surface adhesion to remain in place for such application and curing.

According to various examples, an assembly can include a backing. The assembly can also include a polymeric surfacing film adhered to the backing, the polymeric surfacing film. The polymeric surfacing film can include a first geometric shape. The polymeric surfacing film includes a continuous first cut defining the geometric shape and a continuous second cut spaced apart from and substantially congruent with the continuous first cut in at least one of an x and y direction. A portion of the polymeric surfacing film, located between the first cut and the second cut, is removable from the backing. According to some examples, the assembly can provide certain benefits over state of the art assemblies. For example, according to some examples, providing the first and second cut can make removal of at least the first geometric shape to be quicker and easier, which can result in significant savings in time and wasted materials.

A self-laminating rotating cable marker label is constructed of a transparent film having a first adhesive area, an adhesive-free smooth area, and a second adhesive area. A print-on area forms one side of the transparent film, the print-on area adapted to receive indicia identifying the cable about which the marker label is applied. A perforation extends across the transparent film providing a line of separation of the transparent film. When wrapped around a cable, the second adhesive area overlies the print-on area such that the cable identifying indicia is visible through the transparent second adhesive area. As the transparent film is wrapped around the cable, the first adhesive area adheres to the cable. The remainder of the transparent film is rotated, breaking the perforation, whereby the smooth area of the film in contact with the cable provides smooth rotation of the label around the cable.

A surface covering system, a method of covering a surface, and an apparatus for covering a surface. The surface may be a floor, a wall, or a ceiling. In one embodiment, the surface covering system includes a plurality of panels and an adhesive tape that is configured to detachably couple the panels to the surface. The adhesive tape may include a substrate-side adhesive component, a panel-side adhesive component, and a release component between the substrate-side and panel-side adhesive components. The panels may be detachably coupled to the substrate by the adhesive tape such that at least one adhesive layer of the substrate-side adhesive component is adhered to the substrate, at least one adhesive layer of the panel-side adhesive component is adhered to the rear surfaces of the panels, and the release component is between the substrate-side adhesive component and the panel-side adhesive component.

Proposed is a method of manufacturing a fabric wallpaper, while a bonding force of an adhesive agent attached to one side of fabric wallpaper is enhanced, and flame retarding is given to a wrap and a weft for weaving fabric at the same time. Accordingly, safety is guaranteed against the fire without additional anti-flaming treatment. Also when constructing the fabric wallpaper, general unskilled consumers may easily and conveniently perform construction. Fabric is woven by a warp and a weft of synthetic fibrous yarn in which a flame retardant resin layer is formed on the outer surface of the core. One side of the fabric is heated and pressed to form a smooth surface in which part of the resin layer is melted and extended. An adhesive agent is attached to the smooth surface, and release paper is attached to the outer surface of the adhesive agent.

A self-laminating rotating cable marker label is constructed of a transparent film having a first adhesive area, an adhesive-free smooth area, and a second adhesive area. A print-on area forms one side of the transparent film, the print-on area adapted to receive indicia identifying the cable about which the marker label is applied. A perforation extends across the transparent film providing a line of separation of the transparent film. When wrapped around a cable, the second adhesive area overlies the print-on area such that the cable identifying indicia is visible through the transparent second adhesive area. As the transparent film is wrapped around the cable, the first adhesive area adheres to the cable. The remainder of the transparent film is rotated, breaking the perforation, whereby the smooth area of the film in contact with the cable provides smooth rotation of the label around the cable.