A resin composition, comprising (a) at least one epoxy resin, and (b) at least one siloxane-type curing agent of formula C22 or C31 (C22) (C31) wherein the resin composition does essentially not contain any fluoride or bromide.

##STR00001##

A thermosetting resin composition containing a thermosetting resin (A), boron nitride (B), and a dispersant (C) with a pH of 8 or higher.

A thermosetting resin composition containing a thermosetting resin (A), boron nitride (B), and a dispersant (C) with a pH of 8 or higher.

The invention relates to an in-situ process for preparing an alkylphenol-aldehyde resin. The process comprises the step of providing a raw alkylphenol composition. The raw alkylphenol composition comprises one or more alkylphenol compounds and at least about 1 wt % phenol. Each alkylphenol compound has one or more alkyl substituents. The raw alkylphenol composition is reacted directly, without pre-purification, with one or more aldehydes to form an in-situ alkylphenol-aldehyde resin. The invention also relates to an in-situ alkylphenol-aldehyde resin formed from the in-situ process, and its use in a tackifier composition and rubber composition. The tackifier composition and rubber composition containing the in-situ alkylphenol-aldehyde resin show, inter alia, improved tack performance.

The invention relates to an in-situ process for preparing an alkylphenol-aldehyde resin. The process comprises the step of providing a raw alkylphenol composition. The raw alkylphenol composition comprises one or more alkylphenol compounds and at least about 1 wt % phenol. Each alkylphenol compound has one or more alkyl substituents. The raw alkylphenol composition is reacted directly, without pre-purification, with one or more aldehydes to form an in-situ alkylphenol-aldehyde resin. The invention also relates to an in-situ alkylphenol-aldehyde resin formed from the in-situ process, and its use in a tackifier composition and rubber composition. The tackifier composition and rubber composition containing the in-situ alkylphenol-aldehyde resin show, inter alia, improved tack performance.

The invention relates to an in-situ process for preparing an alkylphenol-aldehyde resin. The process comprises the step of providing a raw alkylphenol composition. The raw alkylphenol composition comprises one or more alkylphenol compounds and at least about 1 wt % phenol. Each alkylphenol compound has one or more alkyl substituents. The raw alkylphenol composition is reacted directly, without pre-purification, with one or more aldehydes to form an in-situ alkylphenol-aldehyde resin. The invention also relates to an in-situ alkylphenol-aldehyde resin formed from the in-situ process, and its use in a tackifier composition and rubber composition. The tackifier composition and rubber composition containing the in-situ alkylphenol-aldehyde resin show, inter alia, improved tack performance.

This invention relates to compositions and a process for stabilizing or solubilize a phenolic resin containing a mixture of linear phenolic resins and calixarenes. The process comprises contacting the phenolic resin with an epoxide, to at least partially alkoxylate the phenolic hydroxyl groups of the calixarenes. This process forms a stabilized or solubilized phenolic resin with an increased solubility in a hydrocarbon solvent.

This invention relates to compositions and a process for stabilizing or solubilize a phenolic resin containing a mixture of linear phenolic resins and calixarenes. The process comprises contacting the phenolic resin with an epoxide, to at least partially alkoxylate the phenolic hydroxyl groups of the calixarenes. This process forms a stabilized or solubilized phenolic resin with an increased solubility in a hydrocarbon solvent.

This invention relates to a modified phenolic resin and a process of modifying a phenolic resin by an ethylenically unsaturated carboxylate compound. The ethylenically unsaturated carboxylate compound contains a thermally polymerizable or crosslinkable functional group, and has affinity to or is chemically bonded to the hydroxyl phenyl or the benzene ring of the phenolic resin, thereby introducing the thermally polymerizable or crosslinkable functional group in the phenolic resin. The invention also relates to a rubber composition comprising a rubber component and the modified phenolic resin component wherein the rubber composition does not contain a methylene donor cross-linking agent that decomposes to an aldehyde. The invention also relates to a formaldehyde-free process for preparing a rubber composition comprising mixing a rubber component and the modified phenolic resin component, wherein the process does not emit formaldehyde.

This invention relates to a modified phenolic resin and a process of modifying a phenolic resin by an ethylenically unsaturated carboxylate compound. The ethylenically unsaturated carboxylate compound contains a thermally polymerizable or crosslinkable functional group, and has affinity to or is chemically bonded to the hydroxyl phenyl or the benzene ring of the phenolic resin, thereby introducing the thermally polymerizable or crosslinkable functional group in the phenolic resin. The invention also relates to a rubber composition comprising a rubber component and the modified phenolic resin component wherein the rubber composition does not contain a methylene donor cross-linking agent that decomposes to an aldehyde. The invention also relates to a formaldehyde-free process for preparing a rubber composition comprising mixing a rubber component and the modified phenolic resin component, wherein the process does not emit formaldehyde.