The present invention relates to a method for the production of a cladding for elongated material (2), in particular a sheath for cable sets. In this method, an adhesive tape (3, 4) consisting of a carrier (4) and a first adhesive coating (3) which substantially fully covers the front side of the carrier (4) is combined with an adhesive-free carrier tape (5) such as to form a laminate (3, 4, 5). This is carried out such that the adhesive tape (3, 4) is applied to the carrier tape (5) with its first adhesive coating (3) in such a way that a first projection (U.sub.1) is defined along at least one of the two longitudinal edges of said adhesive tape. According to the invention, the carrier (4) of the adhesive tape (3, 4) is additionally provided with a further second adhesive coating (7) substantially in parts of its rear side.

An insulating coating material including a polyimide film, and an adhesion layer on at least one side of a polyimide film. The polyimide film has a weight of 23.5 g or less per 1 m.sup.2 and a loop stiffness value of 0.45 g/cm or more

Adhesive tape, in particular wrapping tape for sheathing cables in automobiles, having a textile support and at least one adhesive layer applied to one side or both sides of the support, wherein the support is colored by an in particular yellow dye, characterized in that entirely or partially inorganic mineral pigments are used as the dye. In a preferred embodiment, as pigments of the mineral class of phosphates, arsenates or vanadates, clinobisvanites are used.

The invention relates to a covering for encasing an elongated object (1), in particular for making an elongated sheath (2) for cables in automobiles. The covering is provided with a support tape (3) and at least two closure strips (4) of an adhesive compound on an upper face and/or lower face of the support tape (3). The closure strips (4) extend along respective longitudinal edges of the support tape (3) and define a free area (3) between and/or next to one another. According to the invention, the support tape (3) has a single-layer design and has a class D abrasion resistance according to LV312-1 (2009).

The invention relates an adhesive tape, particularly wrapping tape for wrapping cables in automobiles, comprising a textile carrier, and an adhesive coating on at least one face of the carrier, characterized in that the textile carrier is produced, at least to some extent, from bio-based polymers.

An adhesive sheet in which the adhesive strength of an adhesive layer to other adherends is low, adhesive layers can be firmly bonded to each other, the adhesive layers will not be destroyed even if the adhesive layers are peeled after having once been bonded, and sufficient bonding strength is obtained even if the adhesive layers are re-bonded. An adhesive sheet in which an intermediate layer containing methyl methacrylate-grafted natural rubber is provided on a substrate containing a vinyl chloride resin and a plasticizer, and an adhesive layer including an adhesive containing the plasticizer and a rubber component containing natural rubber and methyl methacrylate-grafted natural rubber is provided on the intermediate layer, wherein a degree of swelling of the rubber component with respect to the plasticizer is by a factor of 1.5 to 4.5.

A communication cable is surrounded by a tape with overlapped first and second longitudinal edges. The overlapped portion of the tape extends parallel to the longitudinal length of the communication cable, which is also parallel to the longitudinal central axis of the cable core. An attachment is provided between the overlapped portions of the tape. The attachment may be formed by an adhesive layer between the overlapped portions of the tape or a melting together of the overlapped portions of the tape. In either case, the tape forms a circumferential protective seal around the cable core.

A binding tape which has sound deadening properties, can suppress layer separation, and is also excellent in abrasion resistance. The binding tape includes a substrate layer made from a non-woven fabric, and an adhesive layer, wherein the substrate layer includes at least two types of fused sections having different shapes. The fused sections are preferably formed by thermally fusing fibers of the non-woven fabric by a heat embossing. Further, the binding tape preferably has a scrape abrasion resistance repetition number of 100 times or more.

The invention lies in the technical field of the textile industry and relates to a textile carrier material for adhesive tapes having a formed tear-off edge, which can be used in the automotive industry for wrapping cable sets, elongate material and lines. The problem addressed by the invention is to provide a textile carrier material for adhesive tapes having improved longitudinal strength while having improved manual tearability and stitch run stop. The problem is solved by a textile carrier material which has at least one areal region with longitudinal strength and a transverse tear-off region in the form of a tear-off edge, wherein the areal region with longitudinal strength has longitudinal stitches, produced by means of pillar stitching, of one or more consolidation threads, and wherein the transverse tear-off region has been formed at least by one or more consolidation threads formed with at least one lateral offset stitch, which are arranged at an angle of 1° to 90° to the consolidation threads arranged in a longitudinally oriented manner.

A sheath for an elongated object is made by first combining an adhesive tape comprised of a substrate strip and a first adhesive coating at least partially covering the substrate strip with an adhesive-free band to form a laminate. Then the substrate strip and the band are overlapped at least largely such that, at the overlap, the first adhesive coating is between the substrate strip and the band. Finally the first adhesive coating is formed at the overlap between the substrate strip and the band of a plurality of spaced adhesive substrips.