Abstract: Disclosed herein are an insulating resin composition, an insulating film manufactured therefrom, and a multilayer printed circuit board, and more specifically, in a build-up manner of multilayer printed circuit board, an insulating epoxy resin composition including a liquid crystal oligomer or the like capable of decreasing a dissipation factor, a dielectric constant, and a coefficient of thermal expansion, an insulating film manfuactured by using the insulating epoxy resin composition, and a multilayer printed circuit board having multiple layers obtained by allowing inner circuits formed of copper (Cu) to be insulated by using the insulating film.

Abstract: A method of manufacturing a polyester film, including: preparing a polyester film substrate having an amount of a terminal carboxylic acid group (AV) of from 3 eq/ton to 20 eq/ton, by using a polyester resin having a temperature distribution of a pre-melting peak (Tm?) of from 1° C. to 10° C.; providing a coating layer on at least one surface of the polyester film substrate; and stretching the polyester film substrate provided with the coating layer at least once.

Abstract: A high solid type paint composition comprising (A) a main component containing a semi-solid state bisphenol type epoxy resin (a1) wherein the epoxy equivalent weight of the epoxy resin is 250 to 300, and (B) a curing component containing an epoxy adduct of xylylenediamine (b1) and an epoxy adduct of polyamide (b2), wherein the epoxy adduct of polyamide (b2) is contained at 50 to 200 parts by weight per 100 parts by weight of the epoxy adduct of xyleylenediamine (b1 ). The anticorrosive coating composition is excellent in drying properties during coating, and capable of forming a coating film having excellent oil resistance, solvent resistance, chemical resistance and anticorrosive properties.

Abstract: The present invention provides an adhesive tape comprising a flux-active compound having a carboxyl group and/or a phenolic hydroxyl group, a thermosetting resin and a film-forming resin. In the adhesive tape of the present invention, the thermosetting resin may be an epoxy resin and may contain a curing agent. The curing agent may be an imidazole compound and/or a phosphorous compound. The adhesive tape of the present invention can be used as an interlayer material for a circuit board and a multilayered flexible printed circuit board.

Abstract: A method for forming an electrical-conductor-free vapor barrier suitable for protecting long-term implanted electronic systems is disclosed. The method comprises forming a nascent layer of a partially cured layer and repeatedly compressing the layer via a roller-based process. Once the layer has been suitably compressed, the layer is fully cured. In some embodiments, a multi-layer protective layer is formed by repeating the roller-based formation process for each of a plurality of layers. In some embodiments, a multi-layer protective layer comprising layers of different materials is formed.

Abstract: The invention relates to a decorative coating having at least one layer of two-component paint and one protective resin surface layer. The resin is translucent or transparent and the two-component paint has at least one first component of prepolymer type based on bisphenol and epichlorohydrin and at least one second component of polyamine type. Another subject of the invention is the use of such a coating for covering surfaces such as a floor or a worktop or a sink or sanitary ware of wash basin, shower cubicle, etc. type.

Abstract: A composition is described that includes at least one polyolefin, at least one thermoplastic bio-resin derived from starch or soy or both, and at least one compatibilizer having at least one polyolefin and at least one polar group. Surface coverings and floor coverings, such as laminated floor coverings, having the composition, are also described.

Abstract: Transparent coating, the process for producing the coating and its use for display regions of shaped polymer, glass or glass-ceramic bodies, where the transparent coating is a baking polyurethane system.

Abstract: Disclosed is a method for manufacturing a flame resistant and transparent film having a high transparency after imparting flame resistance through flame resistance treatment. The method for manufacturing the flame resistant and transparent film according to the present invention comprises the steps of: (a) preparing a transparent base film; (b) forming a flame resistant coating layer by coating a flame resistant material comprising a polysilazane onto at least one surface of the base film; (c) drying the flame-resistant coating layer so as to remove residual solvents in the flame-resistant coating layer; and (d) curing the flame-resistant coating layer under a humid environment. The present invention is characterized by the flame-resistant coating layer and a laminated body of the base film having an optical property in which a measured haze value is less than 0.3.

Abstract: A structure. The structure includes a substrate and a material adhered to said substrate. The material includes a structural layer and an interfacial layer. The structural layer includes at least one crosslinkable polymer and nanostructures having a predefined morphology. The nanostructures are surrounded by the at least one crosslinkable polymer in the structural layer. The interfacial layer essentially lacks nanostructures and includes essentially the at least one crosslinkable polymer.

Abstract: A coating composition comprising the reaction product of an epoxy-functional backbone resin having free hydroxyl groups and a lactide is disclosed.

Abstract: The thermosetting die-bonding film of the present invention is used in manufacturing a semiconductor device, has at least an epoxy resin, a phenol resin, and an acrylic copolymer, and the ratio X/Y is 0.7 to 5 when X represents a total weight of the epoxy resin and the phenol resin and Y represents a weight of the acrylic copolymer.

Abstract: The present invention deals with a laminate useful for forming fully encapsulated flexible printed wiring boards. The laminate comprises a dielectric substrate coated with a curable composition comprising an epoxy and a novel aromatic di-isoimide chemical compound. The curable composition provides the benefit of thermal latency, improving shelf-life, and reducing premature curing during processing. Fully encapsulated printed wiring boards are also disclosed.

Abstract: A construction element obtained by fastening a reinforcement to an insulating panel, using an adhesive containing one or more mineral binders and/or one or more polymeric binders, and optionally one or more fillers, optionally one or more adjuvants and optionally one or more additives, the reinforcement being embedded partially but not completely in the adhesive.

Abstract: A curable composition includes polyepoxide, high-melting metal particles having a melting point above 300° C., low-melting metallic particles having a melting point of less than or equal to 300° C., and a fluxing curing agent comprising a fluxing curing agent comprising: a hydroxyalkyl-substituted tertiary amine, and at least one diacid compound represented by the formula: HO2C—Z1—CH2CH2CH2—Z2—CO2H wherein Z1 and Z2 independently represent a covalent bond or an aliphatic hydrocarbylene group. The at least one diacid compound comprises at least 50 percent of the total weight of carboxylic acids and anhydrides present in the curable composition. Articles comprising the curable composition, and methods of making the same are also disclosed.

Abstract: Disclosed is a gas-barrier film laminate having at least two gas-barrier film layers laminated via an adhesive layer, wherein the gas-barrier film layer has a substrate film, and at least one constitutive unit layer comprising an anchor coat layer and an inorganic thin film layer formed on at least one surface of the substrate film in that order, and wherein the number of the bubbles having a diameter of at least 0.5 mm and the impurities having a diameter of at least 0.5 mm existing between the gas-barrier film layers is at most 3 in total per 100 cm2.

Abstract: Described are compounds that are capable of forming adlayers, the compounds comprising at least one headgroup A, an optional linker B, a polymer C, a terminal group D and an optional crosslinking group R, wherein the headgroup A is a compound of the following formula wherein X is independently selected from an acidic group, Y is a group derived from a convenient coupling group, Z1, Z3, and Z4 are C or N+ Z2, Z5 and Z6 are C-L1 or N+-L, wherein L1 is H or an electron withdrawing group, L is C1-C6 alkyl, in particular C1-C4 alkyl L2 and L3 are independently selected from H or C1-C6 alkyl, or L2 may form together with L1 or L of Z6 a heterocycle, in particular a positively charged heterocycle, n is 0, or 1, or 2, or 3, m is 0 or 1.

Abstract: The present invention relates to heat-curing sealant compositions including at least epoxy resin, dicyanodiamide or an amine complex of a Lewis acid, polyurethane polymer (PUP) containing isocyanate groups and polyaldimine. These single component sealant compositions are characterized by a rapid skin formation and high tensile strength. Because of the short skin formation time, said compositions are optimally suitable for use as sealants in autobody work because they can be excellently layered on top of same.

Abstract: The present invention relate to a halogen-free high-Tg resin composition and a prepreg and a laminate fabricated by using the same. The composition comprises, based on parts by weight of organic solids: (A) 10-50 parts by weight of a cyanate ester resin; (B) at least one compound having a dihydrobenzoxazine ring; (C) 10-50 parts by weight of at least one bismaleimide resin; (D) 10-50 parts by weight of at least one polyepoxy compound; and (E) 5-30 parts by weight of at least one phosphorus-containing flame retardant.

Abstract: Selectively strippable coating compositions comprising at least one amine-terminated polyamide are disclosed. Multi-layer coatings formed from the selectively strippable coating compositions, and methods of using coating compositions comprising at least one amine-terminated polyamide to facilitate selective removal of an adjoining coating by a stripper are also disclosed.

Abstract: The present invention relates to a photocurable resin composition including an epoxy resin, an oxetane compound and a photopolymerization initiator, in which the epoxy resin includes the following ingredients (A) and (B) in combination, and the oxetane compound includes the following ingredient (C): (A) an epoxy resin having at least two epoxy groups in one molecule thereof and being liquid at 60° C. or higher; (B) a solid epoxy resin having at least two epoxy groups in one molecule thereof and having a refractive index of 1.6 or more by itself; and (C) an oxetane compound represented by the following general formula (1) in which n is an integer of 1 to 6.

Abstract: A film for a backlight unit including a semiconductor nanocrystal-polymer composite film including a semiconductor nanocrystal and a matrix polymer in which the semiconductor nanocrystal is dispersed, wherein the matrix polymer is a polymer produced by a polymerization of a multifunctional photo-curable oligomer, a mono-functional photo-curable monomer, and a multifunctional photo-curable cross-linking agent, the multifunctional photo-curable oligomer has an acid value of less than or equal to about 0.1 mg of KOH/g, and a content (A1) of a first structural unit derived from the multifunctional photo-curable oligomer, a content (A2) of a second structural unit derived from the mono-functional photo-curable monomer, and a content (A3) of a third structural unit derived from the multifunctional photo-curable cross-linking agent satisfy Equation 1: A1<(A2+A3).

Abstract: The present invention relates to compositions which comprise an olefinic component and a compound reactive or curable with the olefinic component, and which are suitable for production of release layers

Abstract: A multi-layer aircraft adhesive composition is provided having a first layer prepared from a first composition having a Part A and a Part B. Part A contains a plasticizer, a crosslinking agent, and an adhesion promoter. Part B contains a moisture resister and an abrasion resister. The composition has a second layer formed over at least a portion of the first layer. The second layer is prepared from a second composition having a Part C and a Part D. Part C contains at least one polythiol functional polymer, at least one epoxy resin, at least one sulfur containing material that is different from the at least one polythiol functional polymer, at least one plasticizer, and at least one filler. Part D contains at least one plasticizer, at least one of manganese dioxide or lead oxide, and at least one alkaline agent.

Abstract: Disclosed herein are substrates which have been dry coated with a layered material. Generally, a layered material precursor composition is mixed with a milling medium so that the milling medium is coated with the layered material. The substrate is then contacted with the coated milling medium. The layered material on the milling medium transfers to the substrate to form a coating on the substrate. In particular, conductive films can be formed on a substrate without the need for additives such as a surfactant or a polymeric binder.

Abstract: The disclosure provides a cross-linkable polymer composition, a core layer for an information carrying card comprising such cross-linked composition, resulting information carrying card, and methods of making the same. A crosslinkable polymer composition comprises a curable base polymer resin in a liquid or paste form, and a particulate thermoplastic filler. The base polymer resin is selected from the group consisting of urethane acrylate, silicone acrylate, epoxy acrylate, urethane, acrylate, silicone and epoxy. The particulate thermoplastic filler may be polyolefin, polyvinyl chloride (PVC), a copolymer of vinyl chloride and at least another monomer, or a polyester such as polyethylene terephthalate (PET), a compound or blend thereof.

Abstract: A resin composition having high Tg (high heat resistance), low thermal expansion, and excellent flame retardancy, and being advantageous for promoting halogen-free, and having excellent adhesiveness with Cu, a prepreg obtained by impregnating it into substrate, and a composite and a laminate obtained from them. Specifically provided are a modified polyimide resin composition containing (A) a polymaleimide compound of formula [1], (B) epoxy resin having at least two glycidyl groups in the molecule of formula [2], and (c) phenolic compound having at least two OH groups in the molecule, and a prepreg obtained by impregnating the composition into the substrate, and a composite and a laminate obtained from the prepreg.

Abstract: Super-low fouling sulfobetaine and carboxybetaine materials, super-low fouling surfaces and methods of making the surfaces coated with sulfobetaine and carboxybetaine materials, and devices having the super-low fouling surfaces.

Abstract: The present invention relates to flame retardant polymer compositions which comprise phosphinic acid salts in combination with polymer chain extension agents on the basis of epoxide structures and oxides or hydroxides of selected metals. The compositions are especially useful for the manufacture of flame retardant compositions based on thermoplastic polymers, especially polyolefin homo- and copolymers, such as polybutylene terephthalate (PBT).

Abstract: A polymerizable composite composition comprising a) a hydrolysate and/or condensate of at least one hydrolysable alkylsilane having at least one alkyl group, at least one hydrolysable arylsilane having at least one aryl group or at least one hydrolysable alkylarylsilane having at least one alkylaryl group, and at least one hydrolysable silane containing an epoxy group, b) at least one organic compound having at least 2 epoxy groups, and c) a cationic initiator, is suitable to provide, upon curing, substrates with a patterned coating or patterned molded articles. The patterned coatings and molded articles obtained show high relaxation ability, high chemical resistance and mechanical stability. Micropatterns can be obtained with high stability of shape.

Abstract: Disclosed herein are metal laminates, and methods related thereto. The metal laminates have a cold rolled steel substrate having at least a first side and a second side; a backer coating disposed upon at least a portion of the first side of the cold rolled steel substrate; an adhesive disposed upon at least a portion of the second side of the cold rolled steel substrate; and an aluminum metal layer having at least a first side and a second side, at least a portion of the first side of the aluminum metal layer contacts at least a portion of the adhesive.

Abstract: A high heat-resistant composite material which comprises a polymerizable composition comprising a bi-functional epoxy compound, a tri- or more-functional epoxy compound and a polymerization initiator, wherein the polymerization initiator comprises a sodium salt or potassium salt of mono- or poly-functional carboxylic acid, and a reinforcing fiber such as a carbon fiber or a glass fiber; and a vehicle member or a construction member comprising the above heat-resistant composite material. Said composite material comprises an epoxy polymer having high heat-resistant physical properties over those of a conventional epoxy polymer as a matrix, and exhibits an extremely high retention factor of storage modulus at high temperature.

Abstract: The present invention is directed to the surprising discovery that a hard, low energy epoxysilicone/organic epoxy coating can be generated that can be easily sanded, easily repaired and are chemically stable to the marine environment. The invention reveals the use of epoxy functional siloxanes that chemically bond with an organic epoxy polymer and a polyfunctional amine or amide to form block copolymer networks with the silicone distributed through the entire matrix. The coating thus generated can be applied directly over most hull substrates, anticorrosion coatings or as a repair over itself.

Abstract: A radiation curable coating for a floor comprising: at least one radiation curable oligomer, at least one photoinitiator and at least one reactive diluent monomer, said radiation curable oligomer being selected from the group consisting of Urethane (meth)acrylates, epoxy (meth)acrylates, polyester (meth)acrylates, acrylic (meth)acrylates, and hydrocarbon (meth)acrylates is described and claimed. The composition is capable of undergoing photopolymerization when coated on a floor and when irradiated by a light emitting diode (LED) light, having a wavelength from about 100 nm to about 900 nm, to provide a cured coating on the floor, with the cured coating having an external surface, and the cured coating having a Percent Reacted Acrylate Unsaturation (% RAU) at the external surface of about 60% or greater. Also described and claimed are the process to coat a floor with the LED curable coating for floor and a coated floor where the coating has been cured by application of LED light.

Abstract: The present invention provides curing agent compositions comprising alkylated polyalkylene polyamine compounds. Amine-epoxy compositions and articles produced from these amine-epoxy compositions are also disclosed.

Abstract: Thermosetting adhesive compositions formed from an epoxy resin containing nano-sized core-shell particles, one or more thermoplastic toughening agent containing an amine-terminated polyethersulfone, and at least one multi-functional epoxy resin, together with at least one amine curing agent to allow full cure of the adhesive composition up to 400° F. are provided herein. Such compositions are useful for forming adhesive films that can bond composite/metal/honeycomb structures for aerospace including bonding of aircraft leading or trailing edges, acoustic nacelle structures, horizontal and vertical tail, and various other structures, as well as for other high performance industrial applications.

Abstract: The present invention provides a method for improving the flame retardant efficiency of a phenoxyphosphazene compound, and provides a prepreg, a laminate, and a laminate for printed circuit that are made by the method. The present invention compounds a phenoxyphosphazene compound and a dihydrobenzoxazine ring-containing compound in a halogen-free flame retardant resin composition, so as to effectively improve the flame-retardant efficiency of the phenoxyphosphazene compound. Besides, the prepreg, the laminate and the laminate for printed circuit that are made by the method for improving the flame retardant efficiency of a phenoxyphosphazene compound have excellent flame retardancy, chemical resistance, anti-CAF property, high glass transition temperature (Tg), high thermal resistance, low dielectric dissipation factor, low moisture, and low C.T.E, etc.

Abstract: Disclosed is a method for preventing a photocatalyst from decreasing in hydrophilicity due to contamination by components seeping from a sealing material for anchoring a construction material, exterior material, glass structure, or other article on which a photocatalyst layer is formed. In said method, a transparent sealing-material-component seepage-prevention layer, which contains a modified epoxy resin comprising polymerizable unsaturated monomers graft-polymerized onto or copolymerized with an epoxy resin, is formed on the surface of the sealing material. Said polymerizable unsaturated monomers include a carboxyl-group-containing monomer, and a modified epoxy resin obtained by a carboxyl-group/epoxy-group reaction after graft polymerization or copolymerization is more favorable.

Abstract: A multilayer film may include a polymeric film layer and an absorbing layer on a side of the polymeric film layer. The absorbing layer may be adapted to absorb an odor, a volatile organic compound, or both. The absorbing layer may include a palladium complex and at least one of a cyclodextrin, a hydrophobin protein, and a derivative thereof.

Abstract: An adhesion bond between a metallic surface layer and a second surface is formed by treating the layers with a material comprising sulphur-containing molecules. The sulphur-containing molecules are applied as a surface treatment of the surfaces, so that the sulphur-containing molecules act as a coupling agent to bond chemically to both substrates form nanometer-sized structures on the surfaces. The nanometer-sized structures are incorporated into a self-assembly interlayer in between the surfaces, with the interlayer forming a bond to both surfaces.

Abstract: A method of coating at least a portion of the exposed surface of a metal comprises: a) applying to said surface a curable coating composition comprising an aqueous solution of at least one partially or substantially completely hydrolyzed, and optionally partially condensed, silane possessing one or more hydroxyl groups and, optionally, one or more organonitrogen groups, said hydroxyl group(s) and optional organonitrogen group(s) being bonded to different carbon atoms of a bridging group linking such group(s) to the silicon atom of the partially or substantially completely hydrolyzed and optionally partially condensed silane; and, b) curing the curable coating composition on the surface of the metal to provide an anti-corrosion and/or adhesion promoting coating thereon.

Abstract: The invention relates to the use of a two-component composition comprising a polyol component and a polyisocyanate component, for producing polyurethane gel coats for epoxy-resin and vinyl-ester resin composite materials.

Abstract: An uncured assembly which comprises a fibrous reinforcement. Associated with said reinforcement is a resin material comprising at least one solid amine-terminated epoxy resin, at least one solid epoxy-terminated epoxy resin and optionally at least one cure catalyst.

Abstract: A non-curable coating composition which uses a modified silicone having a functional group and can effectively prevent or reduce adhesion of sticky contamination substances to the surface of a substrate is provided. The non-curable coating composition contains a carboxy-modified silicone having carboxy-containing groups at side chains, and an epoxy/oxyalkylene-modified silicone having an epoxy-containing group and an oxyethylene-containing group at side chains, in a weight ratio ranging from 1:2 to 1:30.

Abstract: A dielectric material is provided. The dielectric material includes at least one layer of a substantially continuous phase material. The material is selected from the group consisting of an organic, organometallic, or combination thereof in which the substantially continuous phase material has delocalized electrons.

Abstract: A laminate useful for electrical insulation having: (a) at least one layer of a mica-aramid paper comprising 55 to 95 weight percent mica and 5 to 45 weight percent aramid and (b) at least one layer of a polymeric electrical insulating film bonded to the mica-aramid paper with an adhesive.

Abstract: A composition including at least one curable structural adhesive, and at least one chemically cross-linked elastomer, wherein the chemically cross-linked elastomer is present in the structural adhesive as penetrating polymer network. Such a composition constitutes a so-called shape memory material and is suitable for reinforcing cavities in structural components, such as, for example, in automobile bodies.

Abstract: Nonpolymeric compounds, compositions, and methods for forming microelectronic structures, and the structures formed therefrom are provided. The nonpolymeric compounds are ring-opened, epoxide-adamantane derivatives that comprise at least two epoxy moieties and at least one adamantyl group, along with at least one chemical modification group, such as a chromophore, bonded to a respective epoxy moiety. Anti-reflective and/or planarization compositions can be formed using these compounds and used in lithographic processes, including fabrication of microelectronic structures.

Abstract: Disclosed is a vulcanized rubber laminate in which both an unvulcanized epichlorohydrin-based rubber composition layer containing a specific polyfunctional (meth)acrylate compound and a specific vulcanizing agent and an unvulcanized fluororubber composition layer containing a specific vulcanizing agent are heated and bonded, whereby, both rubber layers are firmly bonded.

Abstract: A self-stratifying coating composition is provided. The self-stratifying coating can include a base layer having a telechelic resin with reactive end groups and an alkoxide oligomer. In addition, a top layer having an acrylate and/or methacrylate such as a fluorinated acrylate, a fluorinated methacrylate, a fluorinated hydrocarbon copolymerized with an acrylate, a fluorinated hydrocarbon copolymerized with a methacrylate and combinations thereof, and a crosslinking agent can be included. In addition, the base layer and the top layer can have an interfacial surface tension therebetween that is within a range of about 15 to 60 mJ/cm2.