TH19868B - Process for the preparation of polyacetal copolymer - Google Patents

Abstract

Process for producing polyacetal copolymer Which is exceptionally heat resistant and greatly reduces the amount of unstable tip even when the product of polymer formation which Trioxane, the most important monomer, is high. Contains triacane copolymer, which is The most important monomer with cyclid ether Or cyclic formals, which have at least one carbon-to-carbon bond as a co-monomer using heteropoly-acid. Specific or salt, the acid of such substances It is the polymerization catalyst until the amount of the remaining monomer is reduced to a maximum of 10% by weight compared to all monomers fed. Adding a solution with an activated agent Catalyzes 0.01 to 10% by weight against the preliminary polymer or exposure to gas that is Base, which is an activated agent to remove that catalyst activated And the polymer obtained in the first place is made To melt with such heat without washing.

Claims (6)

1.Process for the production of polyacetal copolymer It consists of the following steps: (a) the making of a reaction mixture containing trioxane, an important monomer that is Most with cyclic ether or cyclic formals, which have at least one carbon-carbon bond. The bond is a co-monomer into the reactive state of the formation of a copolymer by using heteropoly-acid or acidic salts of that substance according to the following formula as a catalyst. The polymerization is Hx [M mM \ 'nO1] .yH2O, where M is the element selected from the p and Si group, M \' is the element for the coordinate selected from the group. W, Mo, and V, 1 are 10 to 100, m is 1 to 10, n is 6 to 40, x is at least 1 integer and y is 0 to 50 (b) after reducing the amount of non-monomer. The remaining reactions are carried out to 10% by weight or less of all fed monomers. That enters the reaction mixture So to get the mixture Products containing preliminary copolymer products, inactivated monomers. And polymerization catalyst The reaction mixture is then processed with a solution containing The activated reagent for the polymerization catalyst in amounts of 0.01 to 10% wt. Compared to the preliminary polymer product. To eliminate the activity for that catalyst and (C) The initialization of the resulting copolymer to the smelting operation. 2. Process according to claim 1, in which the comonome That is At least one type of member selected from a group that contains 1,3-dioxolane, diethylene glycolformal and 1,4-butane, diolformale and ethylene oxide 3. According to the claim No. 1, which heteropoly - acid Which is selected from the group that contains Phosphomolybdic acid, Phosphomolybdictic acid, Phosphomolybdotic acid Phosphomolybdovanedic Acid Phosphomolibidovanedic Acid, Phosphotangstovanedic Acid Silicomolybdotanic Acid, Silicomolybdic Acid, Silicomolybdotanic Acid, Silicomolibdo Tantovanedic Acid And the acid salts of such substances 4. Process according to claim 1, where procedure (b) includes the processing of product mixtures. With an additive solution or a solution in an organic solvent consisting of a compound At least one of a kind Selected from the group containing ammonia, amine compounds, trivalent phosphorus and oxides, hydroxides, inorganic salts. And organic acid salts of alkali metals and alkaline earth metals. 5. Process according to claim 1, in which procedure (b) includes the preliminary grinding of the resulting polymer. After the formation of a particle copolymer which is at least 90% with a particle diameter of 3 ml or less 6. The process according to claim 1, in which the procedure (c) is performed in such a way that the Molten When there are stabilizers 7. A process for the production of polyacetaltopolymers consists of the following steps: (a) the impregnation of the reaction mixture containing the trioxide, an important monomer, Best with cyclic ether Or cyclic formals, which have carbon-and-carbon bonds At least one Bonding is a co-monomer into the reactive state of the formation of a copolymer by using Heteropoly-acid Or acidic salts of such substances according to the following formulas as catalysts The polymerization is Hx [M mM \ 'nO1] .yH2O, where M is an element selected from the group containing p and Si, M \' is the element for the coordinate selected from the group W, Mo and V, 1 is 10 to 100, m is 1 to 10, n is 6 to 40, x is at least 1 integer and y is 0 to 50 (b) after reducing the amount of the remaining unreactive monomer. It is up to 10% by weight or less of all fed monomers. That enters the reaction mixture So in order to get a product mix. Containing preliminary copolymer products, unprocessed polymerization catalysts That reaction Processing of reaction mixtures in contact with a base gas, which is an activated agent. To eliminate the activity for that catalyst And then later do not wash the resulting product mix (C) Initialization of the copolymer obtained to a smelting operation 8. Process according to claim 7, in which the copolymer is At least one member of the type to choose from. A group consisting of 1,3 dioxolane, diethylene glycol formal and 1,4 butanediolformal. And ethylene oxide 9. The process according to claim 7, which the heteropolyacid has chosen from the group containing phosphomolybdic acid, phosphotangic acid, Phosphomolibodotangstic acid, Phosphomolybdovanedic acid, Phosphomolibdo Tantovaned acid, Phos Photon Stovanedic Acid Silicomolybdotanic acid, Silicomolybdic acid, Silicomolybdotanic acid, Silicomolibdo Tantovanedic Acid And the acid salt of the said substance 1 0. Process according to claim 7, in which the base gas is ammonia 1 1. Process according to claim 7, in which the base gas is amine 1 compound. 2. Process according to claim 11 in which amine compounds are Substances are represented by at least one formulation from R1 NH2, R1R2NH or R1, R2, R3 N, where each R1, R2, and R3 is an alkyl group or an alcohol group with 4 or less carbon atoms. 3. Procedure according to claim 7, in which procedure (b) is carried out with the base gas being taken. In direct contact with the copolymer obtained in the first place 1 4. Procedure according to claim 7, in which procedure (b) is performed by mixing a base gas. With carrier gas to generate mixed gas And then the mixed gas was exposed to the product Initially obtained copolymer 1 5. Process according to claim 7, in which procedure (b) includes the preliminary grinding of the resulting polymer. After the formation of a particle copolymer, which is at least 90% with a particle diameter of 3 mm or less 6. Procedures according to claim 7 in which the procedure (c) is performed in such a way that It melts when there is a stabilizer.