Abstract:
Resin compositions, which contain: (a) a heat-resistant resin which is soluble in organic solvents wherein the heat-resistant resin is one or more heat-resistant resin(s) selected from the group consisting of a polyimide resin, a polyamide-imide resin, a polyamide resin, a polyether imide resin, a polybenzoxazol resin, a polybenzimidazole resin, copolymers thereof, and mixtures thereof; (b) a thermosetting resin; (c) a filler; and (d) resin having a polybutadiene structure and/or a polysiloxane structure, wherein: the heat-resistant resin (a) and the thermosetting resin (b) are present in a weight ratio of heat-resistant resin (a) to thermosetting resin (b) of from 100:1 to 1:1; the heat-resistant resin (a), thermosetting resin (b), and filler (c) are present in relative amounts such that weight ratio of the total amount of heat-resistant resin (a) and thermosetting resin (b) to filler (c) by weight is from 100:1 to 3:2; the resin having a polybutadiene structure and/or a polysiloxane structure (d) is present in an amount of 0.1 to 15 parts by weight based on 100 parts by weight of the heat-resistant resin (a); and the heat-resistant resin (a), thermosetting resin (b), filler (c), and resin having a polybutadiene structure and/or a polysiloxane structure (d) are present in a total amount of not less than 70% by weight, based on the total weight of the resin composition, are useful for preparing adhesive films, which are, in turn, useful for forming interlayer insulation layers for multi-layered printed wiring boards having an excellent mechanical strength and capable of being roughened by an oxidizing agent.
Abstract:
The present invention provides an adhesive sheet which exhibits bonding strength without formation of lifting even in a curved section and excels in heat resistance. The multi-layered adhesive sheet includes a metal sheet and at least two thermosetting resin layers having different functions on at least one side of the metal sheet.
Abstract:
A slab material for the formation of soles for footwear assemblies which comprises an unmolded sole material having an upper surface, an inner ethylene copolymer based adhesive interfaced with the upper surface of the sole material and an outer thermoplastic polyurethane based adhesive interfaced with the inner adhesive. The outer adhesive is selected from the group consisting of thermoplastic polyurethanes, acrylic modified polyurethanes and acrylate modified polyurethanes.
Abstract:
Butt splicing tape comprising: a splicing portion, an attachment portion and a gripping portion, wherein said splicing portion comprises an elongated first backing member (10) having two faces and two longitudinal edges, a first adhesive layer (11null) on the first face of said first backing member (10), said first adhesive layer (11null) extending substantially along the first longitudinal edge of said first backing member (10) and optionally being covered by a first release liner (12), and a second adhesive layer (11null) on the first face of said first backing member (10), said second adhesive layer (11null) extending substantially along the second longitudinal edge of said first backing member (10) and being covered by a second release liner (13) having two faces and two longitudinal edges, the first face of said second releaser liner (13) being adjacent to second adhesive layer (11null); wherein said attachment portion (20, 21) is connected to said splicing portion, and includes a third adhesive layer (31) and is connected to said second release liner (13) of splicing portion.
Abstract:
An adhesive transfer device and method for selectively making a repositionably adherable substrate from a selected substrate are disclosed. The device comprises a base substrate, a layer of repositionable adhesive disposed on the base substrate, a layer of permanent adhesive adjacent to the repositionable layer opposite the base substrate, and structure providing a release surface. The base substrate and the structure providing the release surface can be moved apart so as to leave both of the adhesive layers on the base substrate with the permanent layer exposed, thereby enabling the selected substrate to be adhered to the exposed permanent layer. The base substrate and the selected substrate can be moved apart from one another so as to separate the base substrate from the repositionable layer and leaving both the adhesive layers on the selected substrate with the repositionable layer exposed, thereby allowing the selected substrate to be repositionably adhered.
Abstract:
Prelaminate pressure-sensitive adhesive (PSA) constructions comprise, a first substrate, a coating or release material on a surface of the first substrate, a PSA layer disposed on the coating of release material, and a detackified layer (DL) disposed on a surface of the PSA layer to form a continuous film covering the PSA layer. In first and second embodiments of the construction the DL is activatable to form a tacky layer on top of the PSA layer for lamination with a second substrate. In a third embodiment, the DL includes constituents that when activated migrate into the PSA layer to expose the PSA layer tacky surface for lamination with a second substrate. The prelaminate PSA constructions are completely nonblocking to a minimum 24 hour blocking temperature of about 50null C. at pressure of about 40 kilopascals, thereby allowing such prelaminate PSA construction to be collected, stored, and or transported before being laminated without adhesive interference occurring between continuous layers. The DL in each embodiment is activatable in less than five seconds to provide a tacky layer having a sufficient open tack time to permit lamination at less than about 100null C.
Abstract:
Multilayer PSA label constructions that achieve a good balance of properties, namely, adhesive performance, convertibility, and laser printer performance, and, optionally, good wet-out on plastic substrates and low haze. The multilayer PSA construction comprising a facestock, a multilayer adhesive coating, and a release liner. The adhesive coating is made of a face side adhesive (FSA) layer comprising a first emulsion acrylic PSA, which is in contact with the inner surface of the facestock, and a liner side adhesive (LSA) layer, comprising a second emulsion acrylic PSA different from the first acrylic PSA, which is in contact with the FSA. The adhesive coating has a coat weight of less than about 26 g/m2 and a flow of less than about 50 &mgr;m at room temperature. The construction exhibits a loop tack value of at least about 3.5 N/25 mm at 5° C. on a polyethylene substrate. It has been discovered that multilayer PSA label constructions exhibiting these properties also exhibit good convertibility and laser printer performance.
Abstract:
A pressure-sensitive adhesive tape comprising a substrate having thereon at least two different kinds of pressure-sensitive adhesive layers, wherein one pressure-sensitive adhesive layer (A) is constituted by a pressure-sensitive adhesive having a modulus at 50% elongation of 68,650 to 117,680 Pa and a modulus at 200% elongation of 147,100 to 245,170 Pa and another pressure-sensitive adhesive layer (B) is constituted by a pressure-sensitive adhesive having a modulus at 50% elongation of 19,610 to 68,650 Pa and a modulus at 200% elongation of 68,650 to 147,100 Pa. The pressure-sensitive adhesive tape has strong adhesion and suitable releasable properties. Use of such a tape in disposable diapers suppresses generation of discordant peeling sounds.
Abstract:
There is provided an adhesive article including (a) a radiation curable adhesive layer comprising an acrylic pressure sensitive adhesive and, optionally, an acrylated urethane polymer; and (b) a transparent carrier layer. The adhesive article may contain a radiation curable epoxy layer between the radiation curable adhesive layer and the transparent carrier layer. This adhesive article is particularly useful in preparing protective coatings on color filters for use in a liquid-crystal display panel structure. The radiation curable epoxy layer and radiation curable pressure sensitive adhesive are applied to the color filter and then exposed to UV radiation. The UV radiation exposure transforms the pressure sensitive adhesive from a removable adhesive to a permanent adhesive. The color filter with the UV cured adhesive layer is then baked to fully cure the adhesive layer and to transform the adhesive further into a near structural adhesive. The cured adhesive layer, and cured epoxy layer, if present, make up the protective coating for the color filter.
Abstract:
The invention provides a process for bonding a pressure-sensitive adhesive to a rubber article. The process includes the steps of heat laminating a heat-activatable adhesive bearing a primer layer to the rubber article at a temperature of at least 100° C. and bonding the pressure-sensitive adhesive to the primer layer. The invention also provides an assembly comprised of a shaped rubber article heat laminated to an adhesive bearing a primer. The invention also provides article of manufacture for bonding a rubber article to a surface.