An epoxy composition is provided that includes a polyepoxy aniline, a rheology modifier, a filler, and a polyamine hardener comprising a cyclic hydrocarbon-containing polyamine. When cured, the epoxy composition provides an advantageous chemical resistance at high temperatures and pressures. Additionally, the cured epoxy compositions have good adhesion to substrates and resist blistering.

A fiber-reinforced polymeric composite structure having chemically active thermoset particles positioned in an interlaminar region between adjacent layers of reinforcement fibers and method of making the same. Upon curing of the composite structure, the chemically active functional groups on the thermoset particles form covalent bonds with the matrix resin surrounding the particles. In one embodiment, the particles are formed of a partially cured thermoset polymer with a degree of cure of less than 100%. In another embodiment, the particles are derived from a thermosettable resin composition, wherein the stoichiometry is such that there is a deficiency or an excess in the amount of curing agent that is necessary for reacting with 100% of the thermoset resin component. In some embodiments, the composition of the chemically active thermoset particles is the same or substantially the same as that of the matrix resin of the composite structure.

Adhesion promoters, Curable compositions containing the adhesion promoters, cured compositions that are formed from the curable compositions, and articles containing the cured compositions are provided. The adhesion promoter has at least one epoxide group and a plurality of hydrolyzable silyl groups. The curable compositions include an adhesion promoter, an epoxy resin, and a curing agent for the epoxy resin that has at least two amino groups that are primary and/or secondary amino groups.

The present invention relates to preparation of heterogeneous mixtures of (carboxylated) vinyl ester/ethylene dispersions, such as vinyl acetate/ethylene (VAE) dispersions with polyamideamine-epichlorohydrin (PAE) wet strength resins having a reduced amount of halogenated organic compounds, such as less than 1500 ppm. The dispersion offers extremely low free and bound formaldehyde levels combined with wet tensile strength for use in non-woven textile and paper applications.

Disclosed is a novel room-temperature curable bio-based epoxy vitrimer with a simple design of the chemical structure. A hempseed oil-derived glycidyl ester type epoxy (HOEP) was synthesized and then blended with a bisphenol A epoxy (DER331) to manipulate the properties of the resulting vitrimer s. An aliphatic amine hardener, diethylenetriamine (DETA), was selected as hardener to realize the room temperature curing in presence of triethanolamine (TEOA) as the catalyst. Unlike the traditional glycidyl ether epoxy-amine the thermosets which are based on stable C-N and ether linkages, the epoxy vitrimer herein includes ester bonds with HOEP and hydroxyls formed from the reaction of amine and epoxy in its cross-linked network. Dynamic transesterification (DTER) between the ester bonds and hydroxyls take place at elevated temperatures, imparting the vitrimer significant stress relaxation behavior and repairability. This provided a viable method to produce room temperature curable epoxy vitrimer s.

The present disclosure relates to epoxide containing compounds comprising three benzene units linked by bridging groups. The disclosure also relates to the production of curable epoxy resin formulations comprising said epoxide containing compounds, and their possible incorporation into composite materials such as fibre reinforced composites. Possible methods for formulating the compounds epoxide containing compounds, as described herein, are also disclosed.

The present invention provides an electrodeposition-coated article production method which is suitable for producing an electrodeposition-coated article comprising a carbon fiber-reinforced plastic. An electrodeposition-coated article production method according to the present invention includes: a molding step of obtaining a carbon fiber-reinforced plastic molded article by curing a prepreg comprising a carbon fiber reinforcement and a thickened product of an epoxy resin composition in which a bisphenol A epoxy resin, [4-(glycidyloxy)phenyl]diglycidylamine and a curing agent component are mixed; and an electrodeposition coating step of coating the carbon fiber-reinforced plastic molded article by electrodeposition. The epoxy resin composition, when cured at 140° C., gives a cured resin which has a glass transition temperature G′-Tg of more than 100° C. and less than 200° C. and in which a dynamic storage elastic modulus G′ value at 200° C. is more than or equal to 8% of the value at 100° C.

The present invention relates to preparation of heterogeneous mixtures of (carboxylated) vinyl ester/ethylene dispersions, such as vinyl acetate/ethylene (VAE) dispersions with polyamideamine-epichlorohydrin (PAE) wet strength resins having a reduced amount of halogenated organic compounds, such as less than 1500 ppm. The dispersion offers extremely low free and bound formaldehyde levels combined with wet tensile strength for use in non-woven textile and paper applications.

A crosslinking composition includes a compound having at least two functional groups that are each independently represented by Chemical Structure (I): ##STR00001##
X is an oxygen, sulfur, or nitrogen; R.sup.1 is an alkyl group, an aryl group, or an alkylaryl group; R.sup.2, R.sup.3, and R.sup.4 are each independently an alkyl group, an aryl group, an alkylaryl group, or a hydrogen; R.sup.5 is an alkyl group, an aryl group, an alkylaryl group, or a hydrogen; z is 0 when X is oxygen or sulfur and z is 1 when X is nitrogen; and when a double bond is formed between a carbon atom bonded to R.sup.3 and an adjacent nitrogen, m is 0, and when a single bond is formed between the carbon atom bonded to R.sup.3 and the adjacent nitrogen, m is 1.

The purpose of the present invention is to provide an epoxy resin composition which has excellent viscosity stability, and when cured, can provide a resin cured product which has high flame retardancy and excellent mechanical properties, and a prepreg and fiber-reinforced composite material using the epoxy resin composition. An embodiment of the epoxy resin composition according to the present invention which achieves the purpose contains all components [A]-[C]. [A]: A reactive diluent having a specific structure and a viscosity of 2 Pa.Math.s or less at 25° C. [B]: An epoxy resin having three of more functional groups. [C]: An amine-based curing agent having a specific structure.