Provided is a one-pack type adhesive which contains (A) an epoxy resin, (B) a curing agent, (C) a curing accelerator, (D) an inorganic filler and (E) a polycarbodiimide compound, and wherein: the curing agent (B) contains at least one amine-based curing agent; the curing accelerator (C) contains at least one capsule type curing accelerator; the inorganic filler (D) contains at least one flake-like inorganic filler; and the content of the inorganic filler (D) is 10-200 parts by mass relative to 100 parts by mass of the epoxy resin (A).

A high-CTI and halogen-free epoxy resin composition for copper-clad plates and uses thereof is provided. The formula of the high-CTI and halogen-free epoxy resin composition for copper-clad plates comprises 100˜140 parts of halogen-free phosphorous epoxy resin, 10˜35 parts of dicyclopentadiene phenolic epoxy resin, 32˜60 parts of benzoxazine, 1˜5 parts of phenolic resin, 0.05˜0.5 parts of accelerants; and 25˜70 parts of fillers, by weight. The copper-clad plates, prepared according to embodiments of the present invention, can reach the requirements of high CTI (CTI≧500V), high heat resistance(Tg≧150 ° C., PCT, 2 h>6 min) and the level of flame retardance of UL-94 V0, and they are widely used in the electronic materials of electric machines, electric appliances, white goods and so on.

Provided are a curable resin composition capable of providing excellent heat resistance and toughness for a cured product, in which these physical properties are less deteriorated even in a case of being exposed to humidity and heat conditions, and a cured product, a fiber reinforced composite material, and a molded article thereof. The curable resin composition includes an epoxy resin and a curing agent, in which the epoxy resin is an epoxy resin obtained by the polyglycidyl-etherification of a phenol novolac resin. The phenol novolac resin contains bisphenol F having different binding sites, and in the bisphenol F components, the content of the [o, p′[ conjugate is in a range of 30% to 45% relative to the total of the [o, p′[ conjugate+the [o, o′] conjugate+the [p, p′[ conjugate in terms of the area ratio according to a liquid chromatography measurement.

Disclosed herein are compositions and methods of making phenolic compounds, and resins comprising these phenolic compounds. The compounds include multifunctional epoxies, amino glycidyl derivatives, and multi-functional amines prepared from hydroxymethyl derivatives of phenols and bisphenols

Laminate, method of manufacturing laminate, transistor, and method of manufacturing transistor using a composition having the following (a) to (c): (a) a first organic compound represented by Formula (1) below (R represents a hydrogen atom or a glycidyl group. A plurality of Rs may be identical to or different from each other, but each of at least two Rs is a glycidyl group), (b) a second organic compound represented by Formula (2) below, and (c) a photocationic polymerization initiator

##STR00001##

The present invention concerns a two-part sizing composition comprising: (A) A precursor comprising: (a) An aminosilane (e.g. A1100) and (b) a polymer or copolymer containing carboxylic acid and/or anhydride, both having a functionality, F≧3, and (B) A binder comprising a multi-functional epoxy resin of functionality, F≧3. Glass fibres sized with the reaction product of the above composition yield a higher resistance to hydrolysis of polymeric matrix composite materials reinforced with such fibres. The sizing composition of the present invention is particularly advantageous for use with polyester resins, such as PET.

A thermosetting resin composition and a prepreg and a laminated board prepared therefrom. The thermosetting resin composition contains the following components in parts by weight: 50-150 parts of a cyanate; 30-100 parts of an epoxy resin; 5-70 parts of styrene-maleic anhydride; 20-100 parts of a polyphenyl ether; 30-100 parts of a halogen-free flame retardant; 0.05-5 parts of a curing accelerator; and 50-200 parts of a filler. The prepreg and laminated board prepared from the thermosetting resin composition have comprehensive performances such as a low dielectric constant, a low dielectric loss, an excellent flame retardance, heat resistance and moisture resistance, etc., and are suitable for use in a halogen-free high-frequency multilayer circuit board.

A multifunctional naphthol-based epoxy resin composition which is a reaction product of a) a naphthol which is a reaction product of i) from 1 to 99 weight percent 1-naphthol and ii) from 1 to 99 weight percent 2-naphthol; and b) an epihalohydrin, is disclosed. Also disclosed is a curable composition comprising: a) an epoxy component comprising the multifunctional naphthol-based epoxy resin composition; and b) a hardener component comprising i) a phenolic resin component selected from the group consisting of phenol novolac resins, triphenolalkane phenolic resins, aralkyl phenolic resins, biphenyl phenolic resin, biphenyl aralkyl phenolic resins, substituted naphthalene phenolic resins unsubstituted naphthalene phenolic resins, and combinations thereof; and ii) a phosphorus-containing composition which is the reaction product of an etherified resole with 9,10-dihydro-9-oxa-10-phosphaphenanthrene-10-oxide (DOPO). The curable composition can be used to prepare prepregs, electrical laminates, printed circuit boards, and printed wiring boards.

A multi-epoxidized biphenyl compound has the formula (I) below

##STR00001##

wherein R, R.sub.1, R.sub.2 and R.sub.3 are as defined in the description, as well as mixtures of at least two of the compounds. These multi-epoxidized biphenyl compounds are fully suitable as main constituents of thermosetting epoxy resins, i.e. as polyepoxides precursors. They are beneficial substitutes for bisphenol A diglycidyl ether.

Provided are an epoxy resin composition and a film or a molding material. The epoxy resin composition is an epoxy resin composition including the following components A to D: component A: an epoxy resin having an oxazolidone ring structure in a molecule thereof; component B: an epoxy resin that is liquid at 30° C.; component C: a diblock copolymer having a B-M structure (where M represents a block formed of a homopolymer of methyl methacrylate or a copolymer containing at least 50 wt % of methyl methacrylate, B represents a block that is incompatible with the epoxy resins and the block M, and that has a glass transition temperature Tg of 20° C. or less, and respective blocks represented by B and M are directly bonded to each other or are linked to each other through a linking group); and component D: an amine-based curing agent that is dicyandiamide or a derivative thereof.