Multilayered polymer films are configured so that successive constituent layer packets can be delaminated in continuous sheet form from the remaining film. The films are compatible with known coextrusion manufacturing techniques, and can be made without adhesive layers between layer packets that are tailored to be individually peelable from the film. Instead, combinations of polymer compositions are used to allow non-adhesive polymer layers to be combined such that irreversible delamination of the film is likely to occur at interfaces between layer packet pairs. Some polymer layers, including at least one embedded layer, may include an ultraviolet (UV) light stabilizer such as a UV absorber, antioxidant, or hindered amine light stabilizer (HALS), and these layers may be positioned at the front of each layer packet. After the UV-stabilized layer of one packet has been used, the packet can be peeled away to expose a new UV-stabilized layer of the next layer packet.

A label assembly including a face sheet, a back sheet, and a layer of an adhesive positioned between the face sheet and the back sheet. A separation line divides the label assembly into at least two portions. The separation line is formed by a first tearable line of separation extending across the back sheet and a second tearable line of separation extending across the face sheet. The first tearable line of separation is offset with respect to the second tearable line of separation, and at least one of the first and second tearable lines of separation includes a non-linear portion directed toward and/or an angled portion extending at an angle to an other of the at least one of the first and second tearable lines of separation.

A masking tape may be used for covering a masking area. The masking tape includes a plurality of masking devices coupled together. Each masking device includes a perimeter and an adhesive layer. Each masking device is coupled to at least two laterally adjacent masking devices at given connection points along the perimeter. Each connection point is weak relative to the masking devices. The adhesive layer couples each masking device to a lower adjacent masking device.

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 plastic component for an interior of a vehicle comprises: a first piece including a first support element; and a second piece facing the first piece and including a second support element adjacent to the first support element within an interstice between the first piece and the second piece; wherein, the first support element extends from an interstice-facing surface of the first piece at a junction, and the junction has a junction thickness that is less thick than a thickness of the first support element adjacent to the junction. During the transition from a non-impact position to an impact position, the junction can separate to induce breakage of the first piece in the interstice between the first piece and the second piece and not viewable from the interior of the vehicle.

The present application provides a napkin dispenser for dispensing a number of folded napkins from a sheet material to an end user. The napkin dispenser may include a loading station for loading the sheet material, a folding station for folding a napkin from the sheet material, and a presentation station for presenting one or more of the folded napkins to the end user.

An elongate flattened thermoplastic tube has an inflation edge and an opposite edge. The tube includes spaced transverse seals that define sides of pouches. The tube includes lines of weakness that allow adjacent dunnage units to be separated. A frangible line of connection is disposed in one two superposed layers of the tube proximate to the inflation edge. This frangible connection may be broken to permit inflation of the inflatable pouches.

The present disclosure relates to a process for cutting and separating arbitrary shapes of thin substrates of transparent materials, particularly tailored composite fusion drawn glass sheets, and the disclosure also relates to a glass article prepared by the method. The developed laser method can be tailored for manual separation of the parts from the panel or full laser separation by thermally stressing the desired profile. The self-separation method involves the utilization of an ultra-short pulse laser that can be followed by a CO.sub.2 laser (coupled with high pressure air flow) for fully automated separation.

Adhesive seals include an elastic sealing sheet, an adhesive layer, and a release sheet on the adhesive layer.

In a zig-zag folded stack of paper web, particularly a stack of recycling paper web, wherein at least one fold of the zag folded stack of paper web is provided with a perforation-tie-row, wherein the ties of the fold coupled to folding-web-she folded above one another, wherein the fold tie in the perforation, each, comprise a maximal longitudinal direction [respective] in the longitudinal fold direction, it is provided that at least one section of a fold comprises a perforation-fold-row of at least five alternatingly arranged ties and perforations, wherein a ratio of a summed up combined longitudinal extension of the folding ties within the section in relation to a summed up combined longitudinal extension of the perforations of the same number within the folding section is larger than or equal to 0.8, preferably larger than or equal to 1.