RU98117843A - POLYMER-ORGANO-CLAY COMPOSITES AND THEIR PRODUCTION - Google Patents

Claims (31)

1. A polymer composite containing a matrix in the form of a hydroxy-functionalized polyester or polyester, in which dispersible particles obtained from a multilayer inorganic material that has organophilic properties are dispersed.  2. The polymer composite of claim 1, wherein the hydroxy-functionalized polyester or polyester is obtained by the dinucleophile reaction, and the monomer contains at least one epoxy unit. 3. The polymer composite according to claim 1, in which the hydroxy-functionalized simple polyester or complex polyester has repeating units described by the formula:

where m is an integer of 5 to 1000; R ¹ represents a divalent organic unit, which is primarily a hydrocarbon; R ³ represents:

or

R ⁴ represents

or

where R ² and R ⁶ independently represent a divalent organic unit, which is primarily a hydrocarbon; R ⁵ is a hydrogen atom or alkyl; m is an integer of 5 to 1000; n is an integer of 0-100.  4. The polymer composite of claim 3, wherein the hydroxy-functionalized polyether is prepared by reacting a diglycidyl ether with a dicarboxylic acid.  5. The polymer composite of claim 3, wherein the hydroxy-functionalized polyether is prepared by reacting a diglycidyl ether with bisphenol.  6. The polymer composite of claim 3, wherein the hydroxy-functionalized polyether is obtained by reacting a diglycidyl ether or epihalohydrin with a dicarboxylic acid. 7. The polymer composite according to claim 1, in which the hydroxy-functionalized simple polyester is described by the formula:

where A is an amino group or a combination of various amino groups; B is a divalent organic unit, which is primarily a hydrocarbon; R is a hydrogen atom or alkyl; m is an integer of 5 to 1000. 8. The polymer composite of claim 7, wherein A is 2-hydroxyethylimino, 2-hydroxypropylimino, piperazinyl, N, N'-bis (2-hydroxyethyl) -1,2-ethylenediimino groups; and B is isopropylidene diphenylene, 1,3-phenylene or 1,4-phenylene; R ⁵ represents a hydrogen atom.  9. The polymer composite of claim 7, wherein the hydroxy-functionalized polyether is obtained by the reaction of a diglycidyl ether or epigalogen-hydrin with a bifunctional amine. 10. The polymer composite according to claim 1, in which the hydroxy-functionalized simple polyester is described by the formula:

where B is a divalent organic unit, which is primarily a hydrocarbon; R is a hydrogen atom or alkyl; m is an integer of 5 to 1000.  11. The polymer composite of claim 10, wherein B is 1,3-phenylene, 1,4-phenylene; sulfonyl diphenylene, oxydiphenylene, thiodiphenylene or isopropyl diphenylene, and R is a hydrogen atom.  12. The polymer composite of claim 10, wherein the hydroxy-functionalized polyether is obtained by reacting a diglycidyl ether or epigalogen-hydrin with bisphenol. 13. The polymer composite according to claim 1, in which the hydroxy-functionalized simple polyester is described by the formula:

or

where R ⁵ is a hydrogen atom or alkyl; R ⁷ and R ⁹ are independently alkyl, substituted alkyl, aryl; B and R ⁸ independently represent a divalent organic unit, which is primarily a hydrocarbon; m is an integer of 5 to 1000. 14. The polymer composite of claim 13, wherein R ⁵ is a hydrogen atom, R ⁷ and R ⁹ are independently methyl, ethyl, propyl, butyl, 2-hydroxyethyl or phenyl, and B and R ^{8 are} independently 1.3 -phenylene, 1,4-phenylene; sulfonyl diphenylene, oxydiphenylene, thiodiphenylene or isopropylidene diphenylene.  15. The polymer composite of claim 14, wherein the hydroxy-functionalized polyether is obtained by reacting an unsubstituted monosulfonamide or N, N'-disubstituted disulfonamide with diglycidyl ether.  16. The polymer composite according to claim 1, wherein the multilayer inorganic material is a swellable laminate.  17. The polymer composite of claim 16, wherein the swellable laminate is an inorganic laminate.  18. The polymer composite of claim 16, wherein the inorganic layered silicate is montmorillonite, hectorite, saponite, nontronite, bidellite, wolfconcoite, coconite, magadiite, medmonite, kenyite or vermiculite.  19. The polymer composite of claim 16, wherein the inorganic layered silicate has a cation exchange capacity of between 20 and 150 milliequivalents, more preferably between 50 and 125 milliequivalents per 100 grams. multilayer material.  20. The polymer composite of claim 19, wherein the inorganic layered silicate contains an onium ion.  21. The polymer composite of claim 20, wherein the onium ion contains at least one unit that makes the inorganic silicate organophilic.  22. The polymer composite of claim 20, wherein the onium ion is an ammonium, phosphonium, or sulfonium cation.  23. The composite according to claim 22, in which the ammonium cation is a primary, secondary, tertiary or quaternary ammonium cation.  24. The polymer composite of claim 17, wherein the inorganic layered silicate is present in an amount of at least 0.1% by weight and not more than 90% by weight of the final composite.  25. The polymer composite of claim 17, wherein the inorganic layered silicate present in the polymer composite has a greater interlayer distance than the inorganic silicate before it is added to the polymer matrix. 26. The polymer composite according to claim 17, obtained by mixing an inorganic layered silicate in the form of a hydroxy-functionalized polyether at a temperature exceeding T _{g of the} polymer.  27. The polymer composite according to claim 17, obtained by adding an inorganic layered silicate to one or more monomers, forming a matrix in the form of a hydroxy-functionalized polyester or polyester, and subsequent polymerization of the monomers.  28. The composite according to claim 1, in the form of a coating, film, foam, laminate, fiber, hot-melt solvent-free adhesive or molded product.  29. A method of producing a composite that comprises contacting a hydroxy-functionalized polyether or polyester or a precursor of a hydroxy-functionalized polyester or polyester with an inorganic layered filler containing inclusions of organic incorporation substances and possibly, although not necessarily, an ionic or non-ionic inorganic inclusion substance .  30. A fiber-reinforced composite comprising a polymer of a matrix material reinforced with one or more reinforcing fibers or a mesh, wherein the polymer of the matrix material is a composite according to claim 1.  31. A method of increasing the interlayer distance of an inorganic layered silicate, which comprises mixing the inorganic layered silicate with a hydroxy-functionalized polyester or polyester or with a precursor of a hydroxy-functionalized polyester or polyester.