There is disclosed a method of manufacturing an adhesive tape (32), comprising: printing a print pattern (14) including at least one printed datum (15) onto a web; applying onto the web a plurality of transversely spaced adhesive stripes (16) using an adhesive stripe applicator; and controlling adhesive stripe application such that the adhesive stripes (16) are applied in register with the print pattern (14) by monitoring the transverse position of at least a part of at least one printed datum (15) and adjusting the relative transverse position between the adhesive stripe applicator and the web in response thereto. The method also comprises a tape slitting operation in which, using a tape slitting head (92), the web is slit into a plurality of adhesive tapes (32) which each have an adhesive stripe (16); and controlling the tape slitting such that the web is slit in register with the print pattern (14) by monitoring the transverse position of at least a part of at least one printed datum (15) and adjusting the relative transverse position between the tape slitting head (92) and the web in response thereto.

A reusable closure system is disclosed for flexible packaging applications. The system generally includes base and lid portions. The base portion can be bonded to underlying package material and includes first and second fields of touch fasteners separated by a multi-layer buffer zone. The buffer zone can be at least in part co-located with a frangible region of underlying package material. In some embodiments, the buffer zone is substantially free of active bonding agent, such that there is little or no active bonding agent overlapping the frangible region. One of the touch fastener fields of the base can be deployed at least partially within the area defined by the frangible region. The other touch fastener field is deployed around the buffer zone. The lid portion can be bonded to the package material and/or base portion, and includes a hinge and another touch fastener field to mate with the base fields.

Methods of preparing extended content labels from prefabricated adhesive assemblies are described. The methods do not require delamination or relamination of the prefabricated adhesive assemblies. The prefabricated adhesive assemblies include a transparent face layer and an adhesive layer sensitive to radiant energy. Extended content printing is applied to a front face of the face layer. A mask is positioned between the adhesive layer and a radiant energy source. Radiant energy not blocked by the mask reduces the adhesion of irradiated portions of the adhesive layer. A floodcoat is applied over the extended content indicia, and front side indicia is applied over the floodcoat and is visible through the face layer and adhesive layer from a back side of the face layer.

A pack for smoking articles having: an inner container housing a group of smoking articles and provided with an extraction opening for the smoking articles; a closing tab coupled to the inner container in the area of the extraction opening to close the extraction opening, the closing tab being glued to the inner container in a releasable manner; a rigid outer container that houses the inner container; and a cup-shaped lid hinged to the outer container so as to rotate, relative to the outer container, between an opening position and a closing position. The closing tab has: a plastic layer arranged internally, a through opening arranged in the area of the extraction opening, and directly glued to an outer surface of the inner container using re-stick glue; and a paper layer arranged in contact with the plastic layer and more on the outside than the plastic layer.

A method and apparatus are provided for die cutting label stock comprising a facestock, an adhesive and optionally a liner to form labels where a liner of the linered pressure sensitive adhesive label stock may be a thin or ultrathin liner.

Paper is disclosed for use in making repositionable or removable adhesive labels. The adhesive can be applied in patches or discrete areas to the paper or to a layer of material that cleans rollers in the manufacturing line and/or in printers. The adhesive can be applied in single or multiple layers. The paper is light weight paper and preferably thermal paper for use in POS printers.

A label medium and an apparatus for manufacturing the label medium are provided. The label medium includes a release sheet and an adhesive sheet temporarily adhered to the release sheet. The adhesive sheet has a base layer and an adhesive layer provided on the base layer. The adhesive sheet includes a plurality of label parts printed on the base layer and a frame part provided outside the label parts. The adhesive sheet is cut along an outline of each of the label parts. The frame part includes a peeling direction indicating portion to indicate a peeling direction in which the frame part is peeled off from the release sheet, the peeling direction being substantially perpendicular to one side of the outline of the label part.

An apparatus and method for producing microperforated patches for MAP includes drilling or punching microperforations through continuously advancing label stock. Holes can be drilled by at least one microperforating laser traversed across the label stock as it advances, a laser beam deflected or split using a servo-driven galvanometer, beam splitters, or a plurality of mirrors, or by drills mounted into a rotating die cylinder across which the stock passes as it is advanced. Numbers and sizes of microperforations can be adjusted by manipulation of laser control parameters, or by exchange of die cylinders. The laser can be a CO2 laser with between 10 W and 100 W output. The drills can be carbide drills. The label stock is typically 6-18 inches wide, and can include an adhesive covered by a release sheet. The stock to be microperforated can include separate rows of labels or can be suitable for die-cutting after microperforation.

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.

The present invention relates to a label for marking items comprising a carrier material with a top side and a bottom side. The carrier material is printable at least on the top side. Adhesive layers are provided on the bottom side and the top side, wherein at least the adhesive layer provided on the top side can be activated for example by heat.