A cylindrical shrink label is provided with a heat-shrinkable label base material; and a joint formed by cylindrically forming the label base material so that the edges thereof overlap, and then solvent welding the inner surface of the outside edge, which is positioned on the outside of the cylinder, and the outer surface of the inside edge, which is positioned on the inside of the cylinder. A resin layer, which is soluble in a hot alkaline aqueous solution, is formed on the abovementioned inner surface and/or the abovementioned outer surface, which form the joint.

A tie article that includes an attachment portion and a bib portion, where the bib portion includes at least one arm segment and at least one closure device (e.g., a retention wire, tin tie, clasp tie, and the like), where the attachment portion and the bib portion are integrally fabricated from a printed sheet having a first surface and a polymeric film adhered to the first surface of the printed sheet such that the closure device(s) is disposed between the first surface of the printed sheet and the polymeric film at the attachment portion. Multiple tie articles may be manufactured with an in-line process.

A tie article that includes an attachment portion and a bib portion, where the bib portion includes at least one arm segment and at least one closure device (e.g., a retention wire, tin tie, clasp tie, and the like), where the attachment portion and the bib portion are integrally fabricated from a printed sheet having a first surface and a polymeric film adhered to the first surface of the printed sheet such that the closure device(s) is disposed between the first surface of the printed sheet and the polymeric film at the attachment portion. Multiple tie articles may be manufactured with an in-line process.

A cylindrical shrink label is provided with a heat-shrinkable label base material; and a joint formed by cylindrically forming the label base material so that the edges thereof overlap, and then solvent welding the inner surface of the outside edge, which is positioned on the outside of the cylinder, and the outer surface of the inside edge, which is positioned on the inside of the cylinder. A resin layer, which is soluble in a hot alkaline aqueous solution, is formed on the abovementioned inner surface and/or the abovementioned outer surface, which form the joint.

A cylindrical shrink label is provided with a heat-shrinkable label base material; and a joint formed by cylindrically forming the label base material so that the edges thereof overlap, and then solvent welding the inner surface of the outside edge, which is positioned on the outside of the cylinder, and the outer surface of the inside edge, which is positioned on the inside of the cylinder. A resin layer, which is soluble in a hot alkaline aqueous solution, is formed on the abovementioned inner surface and/or the abovementioned outer surface, which form the joint.

A method of labeling telecommunication cable is provided. At least one band including an indicator is provided. The bands are placed around and attach to the cable. The amount of bands or the color of the bands secured to the cable may indicate the type of cable.

A method of labeling telecommunication cable is provided. At least one band including an indicator is provided. The bands are placed around and attach to the cable. The amount of bands or the color of the bands secured to the cable may indicate the type of cable.

A heat-shrinkable label film includes a foamed layer having polystyrene as a principal component, and a pair of non-foamed layers adhesively melted to either side of the foamed layer, wherein the foamed layer and the pair of the non-foamed layers are coextruded to provide a low specific gravity less than 1.0. The film is prepared by coextruding to form the several layers completing a non-drawn film; and drawing the non-drawn film in a transverse direction (TD) at a drawing ratio of 3.5 to 5.5. The foamed ratio of the foamed layer is in the range of 5 to 20%. The thickness of the foamed layer is 60 to 90% of the total thickness of the film; and the thickness of each non-foamed layer is 5 to 20% of the total thickness of the film. The heat-shrinkable label film has a thickness of 30 to 60 m.

A holder for a single capillary tube includes: an elongated carrier which at one end thereof has two clamping jaws at a distance from each other for receiving one end of the capillary tube and an other end thereof a handle with an elongated planar area, the handle being connected to the elongated carrier in one piece. The elongated carrier includes a planar area and is thinner than a diameter of a capillary rod to be held, and at one end the elongated carrier has an elongated slit forming two opposite arms including clamping jaws. A planar area of the handle includes a marking field for applying information. The marking field is arranged on one side or on both sides of the elongated carrier.

A mounting section on which a nameplate is mounted includes a space formed between the nameplate and a bottom part of the mounting section, the space enabling the nameplate to be rotated about a fulcrum E that serves as a center of rotation, in a state with the nameplate being mounted on a casing.