RU2049094C1 - Process for preparing triple copolymers - Google Patents

Abstract

FIELD: production of paint materials. SUBSTANCE: the process for preparing triple polymers by emulsion-free polymerization in the presence of a water soluble initiator and a molecular weight regulator which comprises using as the third comonomer 2.0-4.5 wt of the main monomers of monoalkylmaleate the alkyl radical of the ester group of which monoalkylmaleate is a condensation product of 3-6 moles of ethylene oxide and an aliphatic C₁-C₃-alcohol, an initiator being added as an aqueous solution to the reaction system at 65-70 C. EFFECT: motre efficient preparation process. 2 tbl

Description

 The invention relates to the chemistry of macromolecular compounds.

 One of the most common film formers that have found wide application for the production of paints and varnishes, adhesives, binders is a copolymer of vinyl chloride (BX), an ester, most often vinyl acetate (VA) and an unsaturated acid. Obtaining this product can be carried out by solution, suspension and latex methods.

 The suspension polymerization method has a simpler flow chart, and the copolymers obtained have a high degree of purity, although they are somewhat inferior in solubility in organic solvents to the solution analogue.

It is known to obtain a triple suspension copolymer BX-VA-itaconic acid (1) by dosing all three components of the monomer mixture in the polymerization process, which ensures improved solubility and good adhesion of the obtained product. However, the copolymer yield is relatively low and amounts to 70-85%
A common drawback of the suspension process for the synthesis of BX-VA-acid triple copolymers is the presence in the reaction system of a carboxyl-containing ingredient, which causes a sharp decrease in the pH of the medium and leads to a deterioration in the particle size distribution and an increase in the number of crusts.

 The latex process for the preparation of triple carboxyl-containing copolymers based on BX-VA does not provide high quality of the target product due to contamination of its components of the polymerization system. Moreover, the main negative contribution is made by emulsifiers, which are most often surface-active substances (surfactants) that are difficult to wash off from the polymer and impair the treatment of wastewater. In addition, the latex copolymer is inferior to the solution analogue in the most important indicators of adhesion and solubility, and the combination in the polymerization formulation of both surfactant and a carboxyl-containing monomer having an acidic character can cause a coagulation process during the synthesis of the copolymer.

 Closest to the proposed one is a method for latex copolymerization of VC, diester and maleic acid monoester in the presence of an emulsifier of sodium alkylbenzenesulfonate and a potassium persulfate initiator, the distinctive feature of which is the presence of a preliminary emulsification stage of the di- and monoester in the aqueous phase (2). In the synthesis of BX latex copolymers, an ester is a water-soluble initiator introduced at the beginning of the process at room temperature, and the polymerization cycle lasts 5-14 hours. This method of loading the initiator leads to a decrease in the solubility of the polymer and an increase in the viscosity of its concentrated solutions due to the formation of high molecular fractions upon heating reaction mass to a predetermined polymerization temperature. It is also desirable to simultaneously solve the issue of intensification of the polymerization cycle, which allows to increase the removal of finished products from a unit of capacity.

 The aim of the invention is to develop a method for producing triple carboxyl-containing copolymers, the synthesis of which can be carried out by the emulsifier-free method, minimizing or eliminating the formation of coagulum directly in the polymerization process at a sufficiently intensive rate.

где R алкил С₁-С₃, n 3-6.The goal is achieved by a combination of two factors: the introduction of aqueous solutions of the initiator into the reaction system when the desired process temperature is reached and the use of 2.0-4.5 wt.% As the third carboxyl-containing monomer. of the sum of BX-VA monoalkyl maleate, the alkyl radical of the ester group of which is the condensation product of 3-6 moles of ethylene oxide and aliphatic alcohol C ₁ -C _{3 of the} general structural formula:

where R is alkyl C ₁ -C ₃ , n 3-6.

 Obtaining a copolymer according to the proposed method is carried out in the absence of an emulsifier for 2-3 hours with an oscillation interval for 15 experiments of the fraction of coagulum and crusts formed directly during the polymerization, respectively 0-0.9 and 0.6-3.8%. BX, VA copolymers and said monoalkyl maleate have good solubility, form highly concentrated transparent, gel-free solutions and are characterized by high adhesion.

Monoalkilmaleinaty synthesized in a stirred reactor by reacting equimolar amounts of maleic anhydride and, in particular isopropyl alcohol oxyethylates, characterized by a degree of ethoxylation 3. The reaction takes place at 25 ± 5 ^{° C} until complete dissolution of the maleic anhydride derivative in isopropyl alcohol. The resulting product is a slightly yellow mobile liquid, and has an acid number of 195 mg KOH per g of material, a density of 1.12 g / cm ³ and a viscosity at 20 ° ^C. 132 of SDR.

PRI me R 1. In a reactor with a capacity of 4 l load 1400 g of demineralized water: 150 g of vinyl acetate; 11.3 g of carbon tetrachloride (1.5% of ΣBX-VA); 15 g of monoalkyl maleate, the alkyl radical of the ester group of which is the condensation product of 5 moles of ethylene oxide and isopropyl alcohol IPA (2% of ΣBX-VA) and 600 g of vinyl chloride. The reaction mixture was heated to 65-70 ^{° C,} in an autoclave under nitrogen pressure supplied aqueous solution of ammonium persulfate (2.6 g in 5 ml water that is 0.35% of ΣVH-BA). The process is conducted until the pressure drops to 2 kgf / cm ² .

The resulting latex is subjected to coagulation using potassium alum and filtration. After washing the copolymer was dried ^at 50 ° C and evaluated for adhesion value of films by cast lattice cuts in accordance with GOST 15140-78, quality indicators solutions and their viscosities BC-4 (20% solutions in a solvent of the type P-4). Evaluation of the quality of the solutions is carried out according to the six-point system adopted by the company "Huls" of Germany and is shown in table 1.

 Specific experimental data for each example are presented in table 2.

 EXAMPLES 2 and 3. Carry out as in example 1, but the content of monoalkyl maleate in the reaction system is 3 and 4.5%, respectively.

 EXAMPLES 4 and 5. Carry out as in example 1, but monoalkyl maleate has an alkyl radical, which is a condensation product of 4 moles of ethylene oxide with methyl (M) and ethyl (E) alcohols, respectively.

 PRI me R 6 (for comparison). Carried out as in example 1, but the initiator is loaded at the beginning of the process at room temperature.

 PRI me R 7 (for comparison). Carried out as in example 1, but the initiator is charged at the beginning of the process at room temperature, and maleic anhydride (MANG) is taken instead of monoalkyl maleate and a volgonate emulsifier (product E-80) is introduced into the polymerization system.

 As can be seen from table 2, the duration of the synthesis of the copolymer BX-VA-ME is only 2-3 hours, and the proportion of coagulant is minimized or completely eliminated (examples 1-5).

 The quality of the solutions according to the six-point system and the adhesion of the film former are characterized by the highest scores (0 and 1, respectively), and 20% solutions have a relatively low viscosity and are convenient for further processing.

 In the case of comparative experience (example 6), with the exception of taking the initiator charge upon reaching the operating temperature, a decrease in the quality of solutions (score 2) and a very significant increase in their viscosity due to the presence of high molecular weight product fractions in the copolymer are observed.

 The replacement of monoester with maleic anhydride (example 7 for comparison) during copolymerization in the presence of an emulsifier leads to a sharp increase in the share of coagulum, deterioration of adhesion and quality of solutions while increasing their viscosity.

Claims (1)

METHOD FOR PRODUCING Ternary Copolymers by copolymerization of vinyl chloride, vinyl acetate and monoalkyl maleate in an aqueous medium in the presence of a water-soluble initiator and molecular weight regulator, characterized in that 2.5 wt.% Are used as monoalkyl maleate. monoalkyl maleate of the general formula

where RC _{1 is} C ₃ alkyl;
n 3-6,
moreover, the initiator is introduced into the reaction mixture at 65-70 ^o With in the form of an aqueous solution.

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