A roll of label web and method utilize a length of first label web having a plurality of longitudinally spaced adhesive-backed labels removably attached to a substrate wound around a tubular core in such a manner that a first and last label of the first label web are fully intact and usable. The leading and trailing ends of the first label web are cut between labels. The trailing end of the first label web is releasably attached to the core by double-sided releasable adhesive tabs that allow the trailing end of the first label web to pull free from the core for printing the last label. The leading end of the first label web is temporarily secured to the roll by adhesive tabs that are removable without damaging the first label of the first label web.

The invention provides a heat-shrinkable film that has (1) a glass transition temperature (Tg) of 90-140° C.; (2) shrinkage of 12% or less in a main shrinkage direction when treated in glycerin at 80° C. for 10 seconds; (3) shrinkage of 12% or less in a direction orthogonal to the main shrinkage direction when treated in glycerin at 140° C. for 10 seconds; (4) shrinkage of 30%-80% in the main shrinkage direction when treated in glycerin at 140° C. for 10 seconds; (5) a tensile elongation at break of 10% or more both in the main shrinkage direction and the orthogonal direction after aging of 672 hours at 50° C. and 70% RH; and (6) a difference of 5% or less between shrinkage at 140° C. in the main shrinkage direction after aging of 672 hours at 50° C. and 70% RH, and shrinkage at 140° C. in the main shrinkage direction before the aging.

The composite structure includes a fiber-containing layer, such as a fiberboard layer or other layer having fibers from natural and/or synthetic sources, and a mineral-containing layer covering the fiber-containing layer. The fiber-containing layer and mineral-containing layer can be shaped, sized and manufactured such that the composite structure formed therefrom is capable of being machined to form a storage article. The composite structure has advantages in that it can improve whiteness, opacity, ink adhesion, materials reduction, barrier properties, recyclability, and printability. The composite can reduce polymer mass requirements for heat seal, barrier, and fiber adhesion. Further improvements include economics, pliability, and flexibility that is increased over the pliability of the fiber-containing layer alone.

A duplex liner for a label. A method for making a label comprises providing a printable face ply. The method comprises making a duplex liner by: (a) providing a transparent first liner ply; (b) providing a second liner ply that is configured to be printable; and (c) using a binder to bind the first liner ply to the second liner ply. The method includes releasably securing the duplex liner to the printable face ply.

In some embodiments, a printed laminate comprises a first substrate having a first side and a second side, an ink layer at least partially adhered through direct printing to the first side of the first substrate, and a second substrate comprising a heat activatable adhesive and having a first side and a second side. The first side of the second substrate may be at least partially laminated to the second side of the first substrate.

Proposed are a label manufacturing apparatus and a label manufactured by the same label manufacturing apparatus. The label manufacturing apparatus includes a pressure-sensitive adhesive applying unit applying a pressure-sensitive adhesive onto a label fabric, a pressure-sensitive adhesive drying unit located behind the pressure-sensitive adhesive applying unit and drying the pressure-sensitive adhesive applied onto the label fabric, and a release paper attaching unit provided behind the pressure-sensitive adhesive drying unit and attaching a release paper onto the rear surface of the label fabric, wherein the release paper attaching unit is configured such that among a pair of rollers allowing the label fabric and the release paper to pass therebetween to be laminated, a roller guiding the label fabric has a concave/convex portion formed on a surface thereof so that a groove is formed on the laminated label fabric which has passed through the release paper attaching unit.

A protective article is disclosed including a sheet with a first surface, and at least one adhesive portion arranged on the first surface. The adhesive is a water-based adhesive, such as a water-based acrylic adhesive, that allows the sheet to be non-permanently adhered to an object. The adhesive may be sprayed, rolled, printed, or stamped onto the first surface.

In accordance with the present application, there is provided a release liner and method of preparing a liner for a label assembly. The release liner includes paper having a first side that does not have a machine finish or gloss finish or a coating; and a silicone treatment applied to the first side of the paper. The method of preparing a liner for a label assembly includes applying a coat of silicone to a paper at a side of the paper that does not have a machine finish or gloss finish and is otherwise uncoated; and curing the silicone. The release liner includes paper having a silicone coat weight of 0.5 lb/ream or less.

The present abstract relates to a patent of invention for a method for obtaining a tape (1) for self-adhesive, linerless leaflet labels, pertaining to the field of self-adhesive articles, comprising: 1)—Providing and unwinding a self-adhesive-material tape (20); 2)—Printing labels (4) and sensing marks (6) on the tape (3) of the tape (20); 3)—Applying an adhesion control layer (40) to the printed face of the tape (3), preferably comprised by laminating a BOPP-film tape; 4)—Delaminating the liner (10) from the tape (20); 5)—Inverting the position of the liner (10) in relation to the remaining tape of the self-adhesive-material tape (20); 6)—Applying a layer (50) of adhesive to the face of the liner (10) that includes Corona treatment (13), facing the tape (3); 7)—Drying the adhesive (50); 8)—Applying the leaflets (7) to the tape (3) in correspondence with respective labels (4); 9)—Relaminating the liner (10); 10)—Slitting the leaflet-label linerless self-adhesive tape (1) obtained; and 11)—Winding up the finished self-adhesive linerless leaflet-label tape (1) to form the reel (11).

A device for stacking a plurality of partially connected labels into a plurality of partially connected pads of labels comprises a robot arm having at least one vacuum source configured to selectively supply a vacuum force. The device also includes a plate coupled to the robot arm and a flexible pad coupled to the plate and including a plurality of apertures configured to direct the majority of the vacuum force through the flexible pad to a surface of the plurality of partially connected labels.