The present invention relates to an adhesive, a preparation method and application thereof, particularly the application for bonding glass fiber composites, and a bonded article obtained by using the adhesive. The adhesive comprises: a polyisocyanate having an isocyanate functionality of not less than 2; an epoxy-modified polyether polyol; a hydroxyl-containing acrylate; a redox catalyst; a silane coupling agent; optionally a polyol containing bisphenol A structure; and optionally a polymer polyol different from the epoxy-modified polyether polyol. The adhesive according to the present invention has the advantages of being insensitive to moisture, good bonding properties and a long pot life.

The instant invention provides an isocyanate trimerisation catalyst system, a precursor formulation, a process for trimerising isocyanates, rigid foams made therefrom, and a process for making such foams. The trimerisation catalyst system comprises: (a) a phosphatrane cation; and (b) an isocyanate-trimer inducing anion; wherein said trimerisation catalyst system has a trimerisation activation temperature in the range of equal to or less than 73° C. The precursor formulation comprises (1) at least 25 percent by weight of polyol, based on the weight of the precursor formulation; (2) less than 15 percent by weight of a trimerisation catalyst system, based on the weight of the precursor formulation, comprising; (a) a phosphatrane cation; and (c) an isocyanate-trimer inducing anion; wherein said trimerisation catalyst system has a trimerisation activation temperature in the range of equal to or less than 73° C.; and (4) optionally one or more surfactants, one or more flame retardants, water, one or more antioxidants, one or more auxiliary blowing agents, one or more urethane catalysts, one or more auxiliary trimerisation catalysts, or combinations thereof. The process for trimerisation of isocyanates comprises the steps of: (1) providing one or more monomers selected from the group consisting of an isocyanate, a diisocyanate, a triisocyanate, oligomeric isocyanate, a salt of any thereof, and a mixture of any thereof; (2) providing a trimerisation catalyst system comprising; (a) an phosphatrane cation; and (b) an isocyanate-trimer inducing anion; (c) wherein said trimerisation catalyst system has a trimerisation activation temperature in the range of equal to or less than 73° C.; (3) trimerising said one or more monomers in the presence of said trimerisation catalyst; (4) thereby forming an isocyanurate ring. The process for making the PIR foam comprises the steps of: (1) providing one or more monomers selected from the group consisting of an isocyanate, a diisocyanate, a triisocyanate, oligomeric isocyanate, a salt of any thereof, and a mixture of any thereof; (2) providing polyol; (3) providing a trimerisation catalyst system comprising; (a) a phosphatrane cation; and (b) an isocyanate-trimer inducing anion; wherein said trimerisation catalyst system has a trimerisation activation temperature in the range of equal to or less than 73° C.; and (4) optionally providing one or more surfactants, one or more flame retardants, water, one or more antioxidants, one or more auxiliary blowing agents, one or more urethane catalysts, one or more auxiliary trimerisation catalysts, or combinations thereof; (5) contacting said one or more monomers, and said polyol, and op

The present invention relates to a polyol composition for obtaining a polyurethane foam through a reaction with a polyisocyanate compound. The polyol composition comprises a polyol, a catalyst, a foam stabilizer, a foaming agent, and ammonium carboxylate, wherein the ammonium carboxylate has a quaternary ammonium cation as a cationic moiety, and a carboxylic acid anion represented by formula (1) as an anionic moiety.

A method for the production of polyoxazolidinone compounds, comprising the step of reacting an isocyanate compound (A) with an epoxide compound (B) in the presence of a catalyst (C), wherein the isocyanate compound (A) comprises a isocyanate compound (A.sup.1) wherein the a isocyanate compound (A1) comprising at least two isocyanate groups (I.sup.1≥2), preferred two isocyanate groups (I.sup.1=2), wherein the epoxide compound (B) comprises a epoxide compound (B.sup.1) and an epoxide compound (B.sup.2), wherein the epoxide compound (B.sup.2) is different from the epoxide compound (B.sup.1) wherein the epoxide compound (B.sup.1) comprising at least two terminal epoxide groups (F1≥2), preferred two terminal epoxide groups (F.sup.1=2), linked together by a linking group (L1) and the epoxide compound (B.sup.2) comprising at least two terminal epoxide groups (F.sup.2≥2)), preferred two terminal epoxide groups (F.sup.2=2), linked together by a linking group (L.sup.2), wherein the linking group (L.sup.2) comprises acyclic and covalent bonds to each other free of conjugated multiple bonds within the main chain, wherein the epoxide compound (B.sup.2) is present in the epoxide compounds B.sup.1 and B.sup.2, in an amount of ≥0.01 mol-% to <10 mol-%, preferred 1-9 mol-% more preferred 3-8 mol-% based on the molar ratio the terminal epoxide groups in the epoxide compound (B.sup.1) and of the sum of the terminal epoxide groups in the epoxide compound (B.sup.1) and terminal epoxide groups in the epoxide compound (B.sup.2).

Provided are a carbodiimide-based, waterborne resin crosslinking agent that not only is excellent in the storage stability when the crosslinking agent and a waterborne resin are caused to coexist, but also can improve physical properties such as solvent resistance and water resistance of a cured product of the waterborne resin, and a waterborne resin crosslinking agent-containing liquid and a waterborne resin composition comprising the same. The waterborne resin crosslinking agent of the present invention comprises a predetermined polycarbodiimide compound (A) having an oxyalkylene group, a predetermined polycarbodiimide compound (B), and a surfactant (C), each polycarbodiimide compound has a structure in which an isocyanate group is capped with a predetermined end-capping compound at each of both terminals, a total content of the oxyalkylene group in (A) is 15% by mass or more, a total content of the oxyalkylene group in (A) and (B) based on a total amount of (A) and (B) is 10% by mass or less, and a content of (C) is 0.1 to 20 parts by mass based on a total content of (A) and (B) of 100 parts by mass.

A method for the production of polyoxazolidinone compounds, comprising the step of reacting an isocyanate compound (A) with an epoxide compound (B) in the presence of a catalyst (C), wherein the isocyanate compound (A) comprises a isocyanate compound (A.sup.1) wherein the a isocyanate compound (A1) comprising at least two isocyanate groups (I.sup.1≥2), preferred two isocyanate groups (I.sup.1=2), wherein the epoxide compound (B) comprises a epoxide compound (B.sup.1) and an epoxide compound (B.sup.2), wherein the epoxide compound (B.sup.2) is different from the epoxide compound (B.sup.1) wherein the epoxide compound (B.sup.1) comprising at least two terminal epoxide groups (F1≥2), preferred two terminal epoxide groups (F.sup.1=2), linked together by a linking group (L1) and the epoxide compound (B.sup.2) comprising at least two terminal epoxide groups (F.sup.2≥2)), preferred two terminal epoxide groups (F.sup.2=2), linked together by a linking group (L.sup.2), wherein the linking group (L.sup.2) comprises acyclic and covalent bonds to each other free of conjugated multiple bonds within the main chain, wherein the epoxide compound (B.sup.2) is present in the epoxide compounds B.sup.1 and B.sup.2, in an amount of ≥0.01 mol-% to <10 mol-%, preferred 1-9 mol-% more preferred 3-8 mol-% based on the molar ratio the terminal epoxide groups in the epoxide compound (B.sup.1) and of the sum of the terminal epoxide groups in the epoxide compound (B.sup.1) and terminal epoxide groups in the epoxide compound (B.sup.2).

A polyoxazolidinone composition can include a reaction product of 1,5-pentamethylene diisocyanate-based polyisocyanate and poly-functional epoxide, wherein the 1,5-pentamethylene diisocyanate-based polyisocyanate and the poly-functional epoxide are combined at an equivalent ratio of from about 0.5:1 to about 1.5:1 isocyanate equivalents to epoxide equivalents in the presence of a reaction catalyst.

The invention relates to a one-component reaction system for producing rigid polyurethane foams (also called rigid PUR foams) having improved dimensional stability, to methods for producing same and the use thereof. The invention also relates to the rigid polyurethane foams produced using the one-component reaction system according to the invention.

Isocyanate-modified polyester-epoxide polymer (i-PEEP) compositions are disclosed. The i-PEEP compositions comprise a reaction product of a polyepoxide compound, a polyisocyanate, and a polyester polyol composition. The ratio of epoxy equivalents to hydroxyl equivalents is within the range of 0.2 to 2. The i-PEEP index as defined herein is within the range of 100 to 200. The i-PEEP composition has a T.sub.g within the range of 30 C. to 35 C. Low- and elevated-temperature processes catalyzed by bases or Lewis acids for making the i-PEEP compositions are also disclosed. In a simple yet innovative approach, a new class of polymers useful for coatings, elastomers, adhesives, sealants, and other valuable products is assembled from readily available starting materials without reliance on the polyamines typically used to cure epoxy systems.

The present invention relates to an adhesive, a preparation method and application thereof, particularly the application for bonding glass fiber composites, and a bonded article obtained by using the adhesive. The adhesive comprises: a polyisocyanate having an isocyanate functionality of not less than 2; an epoxy-modified polyether polyol; a hydroxyl-containing acrylate; a redox catalyst; a silane coupling agent; optionally a polyol containing bisphenol A structure; and optionally a polymer polyol different from the epoxy-modified polyether polyol. The adhesive according to the present invention has the advantages of being insensitive to moisture, good bonding properties and a long pot life.