A stretchable conductive film for textiles 1 includes a stretchable conductive layer 3, and a hot-melt adhesive agent layer 4 formed on one surface of the stretchable conductive layer 3. The stretchable conductive film for textiles 1 may also include a first peel film 2 formed on a surface of the stretchable conductive layer 3 on the opposite side from the hot-melt adhesive agent layer 4 side, and a second peel film 5 formed on a surface of the hot-melt adhesive agent layer 4 on the opposite side from the stretchable conductive layer 3 side.

A method of applying a multi-layer film for an electronic device display having a clear, material base sheet film with a first side used by a user; a clear adhesive layer formed on a second side of the material base sheet film; and a synthetic separator film, that has excellent linear directional tear properties, that is temporarily affixed to the adhesive layer so that it can be removed by the user so that the user can easily and cleanly tear said synthetic separator film and apply said base film to said electronic device display.

A method of making an adhesive article comprises three steps. First, a backing is provided having first and second opposed major surfaces with respective first and second silicone release layers disposed thereon. The second silicone release layer further comprises organic solvent and a compound represented by the formula: R.sup.1 represents a monovalent, divalent, or trivalent hydrocarbon radical having from 2 to 40 carbon atoms or covalent bond. R.sub.f represents a perfluorinated group having from 3 to 5 carbon atoms. X.sup.1 represents NH or a covalent bond. Second, an adhesive layer is disposed onto the first silicone release layer. Third, the adhesive layer is exposed to E-beam radiation within a process chamber containing oxygen to provide a crosslinked adhesive layer. An adhesive article made by the method and the compound are also disclosed.

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The present disclosure relates to an adhesive composition for forming an adhesive film and an adhesive film obtained therefrom. In the present disclosure, the adhesive composition comprises the following components: (A) a silicone gum having a functional group, which is capable of being cured by heat in the present of a curing agent; (B) a thermoplastic polymer; (C) a curing agent; and (D) a solvent; wherein a weight ratio of the silicone gum to the thermoplastic polymer is in a range of 0.3:10 to 5:10. The adhesive composition is able to form an adhesive film with excellent adhesion strength at not only room temperature but also at a high temperature.

There is provided a cosmetic eyelid shaping tape for performing pseudo plastic surgery on an eyelid at inner-canthus and outer-canthus end portions of the eyelid by forming a constricted portion in the eyelid using resilient elasticity after extension of a base piece. The double-eyelid-forming tape includes a tape-shaped member formed by laminating adhesive layers on both surfaces of a base piece, and a pair of release sheet pieces bonded to the adhesive layers. The release sheet pieces each have groove-shaped tearable portions that are easily tearable when being pulled in a longitudinal direction. The tearable portions each have a groove width gradually expanding from a groove bottom toward the outer surface of the corresponding release sheet piece. The tearable portions include first tearable portions formed at sides of the center of the tape, and a second tearable portion at the center and deeper than the first tearable portion.

A film including a resin layer comprising a structured major surface opposite a second major surface, the structured major surface including a plurality of features; a barrier layer on the structured major surface; and a first adhesive layer on the barrier layer.

A composite film includes a first thermoplastic elastomer film layer and a second thermoplastic elastomer film layer, wherein the first thermoplastic elastomer film layer includes a first styrenic block copolymer. The second thermoplastic elastomer film layer is disposed on the first thermoplastic elastomer film layer, wherein the second thermoplastic elastomer film layer includes a second styrenic block copolymer, diffusion particles dispersed in the second thermoplastic elastomer film layer, and a surface microstructure disposed on the surface of the second thermoplastic elastomer film layer.

Disclosed are various embodiments of multi-layer identifier labels. In one embodiment, a multi-layer identifier label includes an upper layer bearing a public identifier, a lower layer bearing a private identifier, and an adhesive backing below the lower layer. The upper layer may be removably attached to the lower layer, and the lower layer may be non-visible underneath the upper layer. Peeling away the upper layer to reveal the lower layer may be a tamper-evident action.

The purpose of the present invention is to provide a retroreflective tape having superior flexibility, retroreflective properties, and cleaning durability, as well as making possible clear formation of a boundary between a retroreflective region and a non-retroreflective region. Provided is a retroreflective tape in which a retroreflective region is provided on part of a base material layer, wherein: the retroreflective region is a region having a fixing resin layer, transparent microspheres embedded in the fixing resin layer, and a reflective layer provided between the transparent microspheres and the fixing resin layer and formed from a metal film; the index of refraction of the transparent microspheres is 1.6-2.5; and the transparent microspheres are embedded in the fixing resin layer such that the exposure ratio is 53-70%.

The aim is to provide an adhesive tape that effectively protects an electronic construction from permeants, especially water, and that at the same time has good gap-filling qualities. To solve this problem an adhesive tape is proposed that has in the following order:a carrier layer without barrier effect at least towards water and with a WVTR of at least 1 g/(m.sup.2*d) (38 C., 90% relative humidity, 50 m layer thickness);a layer comprising at least one getter material capable of sorbing at least water;a water barrier ply; anda layer of pressure-sensitive adhesive, where the carrier layer bears an outward-facing release layer and/or the layer of pressure-sensitive adhesive is lined with a release liner which has a release layer lying on the layer of pressure-sensitive adhesive.