Abstract: A coating composition is provided comprising an epoxy resin, a polyacetoacetate, a curing agent for the epoxy resin, and an optional organic solvent. The presence of the polyacetoacetate permits the preparation of a fast-drying high-solids coating formulation.

Abstract: A resin composition useful for coating electrically conductive wires which comprises(A) a halogen containing polyester having a halogen content of 0.5 to 30 wt. % and being a polycondensation product of:(a) a component composed mainly of an aromatic dicaroxylic acid or an ester forming derivative thereof,(b) a component composed mainly of an aliphatic glycol or an ester forming derivative thereof, and(c) a component composed of an ester forming compound containing a halogen, and(B) 0.1 to 10 wt. %, based on the total composition, of a bisepoxy compound.

Abstract: Curable mixtures based on(A) compounds containing hydroxyl groups,(B) curable compounds,(C) catalysts and(D) if appropriate a diluent and if appropriate further additives,in which compounds which are used as the curing compounds(B) are those which contain at least two enol ether groups of the formula (I) ##STR1## The mixtures according to the invention already cure rapidly at low temperatures and are particularly suitable for the production of shaped articles or coatings or as a constituent in lacquers.

Abstract: An epoxy resin composition comprising a trifunctional epoxy resin derived from a trisphenol having the structure represented by the following general formula ##STR1## wherein R represents a hydrogen atom, an alkyl group or a halogen atom, and a novolak-type phenolic resin. This epoxy resin composition gives a cured product having excellent pliability and a high glass transition temperature. It is especially useful as a semiconductor encapsulating material.

Abstract: Novel curing agents for synthetic resins containing groups capable of ester formation or amide formation and, optionally polymerizable double bonds which are Michael addition products of monocarboxylic or dicarboxylic acid esters, capable of undergoing Michael addition, with compounds containing at least two double bonds capable of undergoing Michael addition, the two components being reacted in such ratios that the Michael addition product contains at least one ester group capable of transesterification and/or transamidation and at least one polymerizable double bond.

Abstract: Process for the preparation of a polyether resin by reacting a diglycidyl ether of a dihydric phenol with an alcohol of formula R-C(CH.sub.2 OH).sub.3, R being C.sub.1-4 -alkyl, using an equivalent ratio e.sub.OH to e.sub.epoxy >1 and selecting P>1.05, wherein ##EQU1## F.sub.epoxy being the epoxy functionality of the diglycidyl ether.

Abstract: Resinous compositions are prepared by the reaction of a composition comprising cyclic polycarbonate oligomers with at least one polyepoxide compound, in the presence of a polycarbonate formation catalyst. The cyclic polycarbonate oligomer composition is preferably a mixture of oligomers of varying degrees of polymerization, and the polyepoxy compound is preferably triglycidyl isocyanurate or a bis-epoxy-terminated bisphenol A-epichlorohydrin concentrate. There may also be present a polycarbonate crosslinking agent. The product of the reaction is a crosslinked polycarbonate network. The method is particularly useful in reactive processing operations such as reaction injection molding.

Abstract: Modified cationic epoxy resins wherein phenols linked through modified urea groups are used to extend the chain of diepoxy resins are described. The modified cationic resins can be formulated as paints which exhibit excellent properties particularly when used for electrodeposition paints.

Abstract: Laminates are prepared for reinforced expoxy resin compositions comprising (A) a reinforcing material such as fiberglass, (B) one or more epoxy resins such as a hydrocarbon-phenol eposy resin and (C) one or more epoxy resin curing agents such as a hydrocarbon-phenol resin or phenol-formaldehyde novolac resin. These laminates are particularly suitable for use in electrical applications such as the manufacture of printed circuit boards.

Abstract: Homopolycondensates and copolycondensates of the group comprising linear, saturated polyamides, polyesters, polyamide-imides, polyester-imides and polyester-amides based on benzophenonedicarboxylic acids and benzophenonetricarboxylic acids are radiation-sensitive and are particularly suitable for the production of protective coatings and relief images.

Abstract: Ungelled reaction products of polyoxyalkylenepolyamies with monoepoxides and optionally with a polyfunctional material which contains groups capable of reacting with amino and/or hydroxyl groups are disclosed. The reaction products can be neutralized with acid and dispersed in aqueous medium where they are useful as additives for cationic electrodeposition baths to improve surface appearance of electrodeposited coatings.

Abstract: An ungelled composition is prepared as the half-amide reaction product of a diester of oxalic acid and a material containing one or more primary and/or secondary amino groups and one or more different functional groups. The ungelled composition is useful as a crosslinking agent for amine group containing materials and as an intermediate in the preparation of resinous compositions for fire protective coatings.

Abstract: A composition of matter comprising either at least about 80 wt. % of a monomeric or oligomeric polyglycidyl ether of tris(hydroxyphenyl)alkanes;or at least about 80 wt. % of an epoxy phenol-formaldehyde or cresol-formaldehyde novolac resin in monomeric or oligometric form, e.g., dimers, trimers, tetramers and some higher oligomers in an amount of as little as 5 up to about 95 wt. %;in combination with from about 0.1 to about 20 wt. % of a divinyl benzene compound of the formula: ##STR1## wherein each A independently represents H, F, Cl, Br or CH.sub.3 but no more than 2 of A are CH.sub.3.

Abstract: Michael addition products of monocarboxylic or dicarboxylic acid esters, capable of undergoing Michael addition, with compounds containing double bonds capable of undergoing Michael addition are suitable for use as a curing component for synthetic resins containing groups capable of amide formation and/or ester formation with carboxylic acids. In particular, the Michael addition products of acetoacetic esters or malonic esters with esters, amides or urea derivatives of .alpha., .beta.-unsaturated monocarboxylic or dicarboxylic acids are used. The structure and the functionality of the curing component can be varied in many ways. It can be attached directly to the synthetic resin molecule, so that self-curing synthetic resins are obtained.

Abstract: Resinous materials are produced in the substantial absence of a solvent by feeding to an extruder operated at a temperature sufficient to cause a reaction between the reactants (A) at least one material having an average of more than one vicinal epoxy group per molecule, (B) at least one material having an average of more than one group reactive with component (A) such as hydroxyl, thiol, carboxyl, isocyanate, thioisocyanate or secondary amine groups or a combination of such groups per molecule or a material having only one primary amine group per molecule, (C) at least one catalyst for promoting a reaction between components (A) and (B) if a catalyst is required to effect the reaction between components (A) and (B), and (D) optionally one or more chain terminators and thereafter recovering a resinous material resulting from the reaction between components (A) and (B) from said extruder.This process is useful in preparing advanced epoxy resins and phenoxy thermoplastic resins.

Abstract: Heat-curable compositions exhibiting improved room temperature pot life and reduced viscosity are obtained from composition comprising (1) a polyepoxide, (2) an aromatic or aliphatic amine, (3) a trihydrocarbyl sulfonium salt, (4) an unsaturated monomer and (5) a free radical curing agent.

Abstract: Heat-curable compositions exhibiting improved room temperature pot life and reduced viscosity are obtained from composition comprising (1) a polyepoxide, (2) an aromatic or aliphatic amine, (3) a trihydrocarbyl sulfonium salt, (4) at least one unsaturated aromatic monomer, (5) an unsaturated co-monomer and (6) a free radical curing agent.

Abstract: A general purpose expandable adhesive comprised of a spiroortho ester synthesized from the lactone, 6-caprolactone, and the diglycidyl ethers of bisphenol A and 1,4-butanediol, Cab-o-Sil thickener/thixotrope, silica (325 mesh), and Unirez 2800, amidoamino curing agent, has superior tensile strength, superior bondability and with less void formation to aluminum, steel, wood, and cured concrete as compared with a general purpose adhesive which does not contain a spiroortho ester.

Abstract: An improved process for making glycidyl ethers of novolac resins, particularly cresol and phenol novolacs, by reaction of the novolac with a solid alkali metal hydroxide in excess epichlorohydrin and in the presence of an alcohol cosolvent where the reaction mixture contains a small amount of water, wherein the improvement comprises carrying out the etherification and dehydrochlorination in a combined one step process, in the absence of a catalyst specific for chlorohydrin formation, and using the solid alkali metal hydroxide in the form of tiny beads.

Abstract: A product and the process for preparing the same to improve the moisture resistance properties of epoxidized TGMDA and DGEBA resin systems by chemically incorporating chromium (III) ions therein without impairing the mechanical strength properties of the resins.

Abstract: A liquid composition comprising a dispersion of silica colloid in alcohol and a thermo-setting resin. The dry film of this composition is superior in chemical resistance, surface hardness, abrasion resistance, heat resistance and adhesiveness to a substrate.

Abstract: An epoxy resin substantially represented by the general formula ##STR1## where Ar.sup.1 is a residual group of a dihydric phenol derived from a compound having one or two benzene nuclei, Ar.sup.2 is residual group of a halogen-substituted benzenoid compound having two halogen atoms on its nuclei and represented by the formula --Ar.sup.3 --Y--Ar.sup.4 -- where each of Ar.sup.3 and Ar.sup.4 is a hydrocarbon group having a divalent benzene nucleus and Y is a sulfone group or a carbonyl group, and n is an integer of from 1 to 50.

Abstract: A polymerizable mixture for adhesive bonding is disclosed. The polymerizable mixture comprises a polymerizable acrylic-based material, a polymerizable epoxide-based material and a bifunctional molecular material reactable with said acrylic-based material and said epoxide-based material.

Abstract: High temperature-resistant thermobarriers have a filler therein. The filler can be an opaque thermobarrier material, a fabric or cloth such that a laminated thermobarrier is formed, or preformed bubbles of glass, ceramic or plastic such that a syntactic foam thermobarrier is formed. The thermobarrier contains a boroxine compound therein as well as epoxy resins and various phosphorus compounds and/or aromatic alcohols. Generally, the syntactic foam thermobarriers give the best heat protection.

Abstract: The present invention provides an curable composition comprising (1) at least one epoxy compound containing at least one vicinal-epoxy groups, (2) a miscible amount of at least one ethylenically unsaturated monomer and (3) a curing amount of at least one catalyst selected from lithium or Group II metal salts of a non-nucleophilic acid.

Abstract: This invention relates to a heat curable composition comprising(a) a liquid, ethylenically unsaturated monomer, oligomer or prepolymer of the formula: ##STR1## wherein R is H or CH.sub.3, R.sub.1 is an organic moiety and n is at least 2,(b) an epoxy resin containing at least two ##STR2## groups, and (c) a thermal initiator member of the group consisting of(1) a substituted or unsubstituted diaryliodonium salt in combination with a free radical initiator,(2) a BF.sub.3 adduct,(3) a BF.sub.3 adduct in combination with a free radical initiator, and(4) dicyandiamide in combination with a free radical initiator.The system is stable at ordinary temperatures, but on heating the thermal initiator catalyzes the curing of the acrylate and the epoxy resin.

Abstract: Diglycidyl ethers are prepared from a mixture of isomers of 1,1-bis(hydroxyphenyl)heptane. The diglycidyl ethers have low viscosity and good compatibility with aliphatic hydrocarbon solvents; they can be cured with the usual curing agents for epoxy resins, e.g., polyamines, and can be used in solventless coating compositions.

Abstract: A polyspirolactone polymer particularly suitable for protective surface coatings comprises a spirolactone structure in the polymer structure adapted to be cross-linked with a primary or secondary amine compound to produce a thermoset protective coating.

Abstract: A coating composition containing as essential components(A) a prepolymer of epoxy resin and polyhydroxy phenolic compound selected from the group consisting of:(i) poly-nuclear polyhydroxy phenols having adjacent hydroxy groups,(ii) polyol esters of polyhydroxy phenolic carboxylic acids having adjacent hydroxy groups,(iii) a mixture thereof, and(B) an organic hardener for epoxy resins.This coating composition can be coated on rusty metal surfaces.

Abstract: Novel compositions of matter comprising a water-dispersible reaction product of beta-diketones and epoxy material are hereby provided. The beta-diketones useful herein are those which enolize in amounts that render them sufficiently acidic and reactable with epoxy groups of the resin. The novel reaction products can be dispersed in water and they can be formulated optionally with curing agents. Ferrous metals treated with the compositions of this invention exhibit excellent corrosion-resistant properties.

Abstract: Novel compositions of matter comprising the reaction product of beta-diketones and epoxy resins blended with monomeric or polymeric phosphonium salts are hereby provided. The beta-diketones useful herein are those which enolize in amounts that render them sufficiently acidic and reactable with epoxy groups of the resin. The novel reaction products can be dispersed in water to form pretreatment agents and they can be formulated with curing agents to form coating compositions. Ferrous metals treated with the compositions of this invention exhibit excellent corrosion resistance properties.

Abstract: A highly heat resistant transparency of epoxy resins cured with adducts of trimethoxyboroxine and benzyl alcohol is disclosed. This transparency may exist in a composite with other layers of transparent material known to those skilled in the art. The epoxy resin having the trimethoxyboroxine and benzyl alcohol may also have triphenyl phosphite which further increases the resistance to intense heat for these transparencies in their use on military and industrial hardware.

Abstract: Compounds added to initiate photopolymerization of monomers to produce polymeric coatings include compounds of the formula ##STR1## wherein Ar is phenyl or naphthyl,R is hydrogen, alkyl with 1-4 carbon atoms, alkoxy with 1-4 carbon atoms, halogen, dialkylamino with 1-4 carbon atoms in each alkyl group, carboxyl, or alkoxycarbonyl with 1-4 carbon atoms in the alkoxy group,X is alkylene having 3 to 6 carbon atoms or alkylene having 6 to 72 carbon atoms interrupted by at least one member selected from the group consisting of ##STR2## and the precursor of X being a polyol having 3 to 6 hydroxyls and having a hydroxyl number of from 100 to 1850,R.sub.1 is hydrogen or methyl,n is a number with a value from about 2 to about 5, andn+m is a number with a value from about 3 to about 6.

Abstract: There is provided a molded shaped structure made by molding the reaction product of an organic resin and a modified magnesium silicate obtained by calcining chrysotile asbestos tailings. The new product is characterized by the absence of any fibers.

Abstract: There is disclosed a class of N-alkylpolyamines and their use as curing agents for epoxy resins, and in particular to such polyamines having the formula R--[NH(CH.sub.2).sub.x ].sub.y --NHR' where R is an aliphatic hydrocarbon radical having from 5 through 8 carbon atoms, R' is H, R or R", x is an integer of 2 or 3 and y is an integer of 2-4. A monoepoxide adduct of the monoalkyl substituted polyamine is also disclosed wherein R" may then become an aliphatic substituent (2-14 carbon atoms) which may contain (a) an oxygen atom, (b) a hydroxyl group or (c) an aromatic substituent such as a phenyl ring.

Abstract: Novel thermosetting oligomers are formed by reacting epoxy prepolymers with aminoarylacetylenes. When heated to 170.degree. C. or above, these oligomers undergo acetylenic polymerization to form resins which exhibit superior thermal and hydrolytic stability when compared to conventionally cured epoxy resins.

Abstract: Urethanes of hydroxybenzotriazoles and hydroxybenzophenones which can be chemically modified upon heating have been found useful in imparting weather resistance to plastic substrates when applied as part of a UV curable resin which can be subsequently heated after cure. UV curable resins containing such urethanes and the use of such resins to treat thermoplastic substrates are also described.

Abstract: A thermoplastic polycarbonate formed by reacting a carbonyl halide such as phosgene, a dihydric phenol, and a 2-methylepichlorohydrin residue-dihydric phenol prepolymer under polycarbonate forming conditions.

Abstract: Polyepoxide resins are adducted with polyamines which are further reacted with a monoepoxide or a monocarboxylic acid. When salted with an acid, the resinous adducts are water soluble or water dispersible. The resin solutions or dispersions are particularly useful in cathodic electrodeposition processes for prime coating metal objects.

Abstract: To accelerate the curing of epoxide resins by means of aromatic polyamines there is added magnesium nitrate or a nitrate of an at least divalent metal of Group IIB, IIIB, IVB, VIB, VIIB, or VIII of the Periodic Table.

Abstract: Epoxide materials suitable for use in flexible adhesives are prepared by reacting a diene, such as butadiene or isoprene, with an electron donor, typically an alkali metal, in the presence of a polyepoxide normally in a molar ratio diene:polyepoxide of less than 3:1. The polyepoxide is typically a conventional epoxy resin such as DGBA. The product normally separates into two phases, the upper of which comprises epoxy-terminated diene oligomers with degrees of polymerization of about 6 to 14. This separation may be avoided by incorporating a minor proportion of acrylonitrile into the product by addition to either the original diene or the anionic living polymer immediately before hydrolysis. The products may be cured with conventional epoxide curing agents to give an internally flexibilized adhesive having useful combinations of tensile and shear strengths.