RU2277552C1 - Composition makeup - Google Patents

Abstract

FIELD: polymer materials.

SUBSTANCE: invention relates to polymer composition based on binder, namely unsaturated polyether resin or oligoether acrylates, and may be used in medicine, in production of paint and lacquer materials, etc. Composition comprises, wt parts: unsaturated polyether resin or oligoether acrylates or mixtures thereof, 100; polymerization promoter, in particular complex compound prepared by reaction of vanadium derivatives (vanadium pentoxide, ammonium methavanadate, of methavanadic acid) with orthophosphoric acid/water/butanol mixture, 0.3-0.88; polymerization initiator: cumene hydroperoxide, 0.3-0.44; and modifying additives, 0-20.

EFFECT: optimized makeup involving inexpensive, easily available, and highly efficient promoter.

1 tbl, 6 ex

Description

The invention relates to polymer chemistry, in particular to cold curing of a composite composition, comprising: a binder - unsaturated polyester resins or oligoester acrylates; redox system consisting of a polymerization initiator and accelerator.

Curing of polymer resins usually proceeds in the presence of peroxide initiators at 80-150 ° C; in the case of using accelerators at 20-30 ° C and even lower temperatures / s.713, t.2. Encyclopedia of polymers in 3 volumes. M.: “Soviet Encyclopedia”, 1972-1977 /. The choice of initiator and accelerator, as well as their dosage, depend on the composition of the polyester and monomer, their ratio.

A known composition of vanadium pentoxide with monobutylphosphoric acid with a vanadium content of 0.5 ± 0.05%, used as a resin curing accelerator / A.s. No. 1010094, C 09 D 3/68, 1983 /.

A.S. No. 1604588 (B 24 D 3/20) includes an unsaturated polyester resin, an accelerator "B", hyperis, aerosil, silica gel, aluminum gel and abrasive.

In the technical solution / Patent No. 20055739, C 08 J 5/10 / a toluene solution of cobalt naphthenate or a solution of vanadium pentoxide in monobutyl phosphoric acid was used as an accelerator, and a semi-finished varnish was used as a solution of unsaturated polyester in the mixing monomer.

A known method of producing an accelerator by the interaction of vanadium pentoxide with monobutylphosphoric acid with the formation of accelerator No. 31, which is part of the polyester varnish PE-265 / TU 6-10-1445-80 / cold drying, which is a four-component system consisting of a semi-finished varnish (unsaturated solution resins in a mixture of solvents: styrene, butyl acetate and acetone), accelerator No. 31 (solution of vanadium pentoxide in monobutylphosphoric acid), initiator (isopropylbenzene hydroperoxide - hyperysis) and a pop-up additive (3% solution of p Rafina in styrene grade B) /s.25. Paints and varnishes: Technical requirements and quality control: Reference manual. M.I. Karyakina and others M: Chemistry, 1983. 336 S. /, the following proportion, wt.h: semi-finished varnish - 100.3%; a solution of paraffin in styrene - 1.7; accelerator - 1.0; the initiator is 1.0. PE-265 varnish is used to obtain a glossy coating on panel parts of furniture, lined with natural wood veneer or materials based on impregnated paper. Vanadium accelerators cannot be introduced into the varnish during its manufacture, but can only be added just before the varnish is applied. This circumstance forces the finished PE-265 varnish to be delivered in the form of four separate components. The viability of the compositions is at least 24 hours at 18-22 ° C / s. 169. Bukhtiyarov V.P., Ivanov N.A., Savchenko V.F. Polymeric materials in the manufacture of furniture. M .: Lesn prom-st, 1980, 272 pp. /.

The feedstock for obtaining accelerator No. 31 - monobutylphosphoric acid is not produced by the domestic industry.

As a prototype of the claimed technical solution, varnish PE-265 was selected.

The purpose of the invention is the selection of the optimal composition using a cheap, affordable high-performance accelerator with a significant expansion of the range of use compared to the prototype.

To solve the technical problem, in accordance with the invention, a composition is proposed comprising a binder, modifying additives, an accelerator and an initiator, characterized in that the polymerization accelerator is a complex compound obtained by the interaction of vanadium derivatives: vanadium pentoxide, or ammonium metavanadate, or metavanadium acid with a mixture of phosphoric acid, water, butanol in an amount of 0.3-0.88 wt.% from the binder in the following ratio of ingredients, wt h: the specified binder more - 100; modifying additives - 0-20; cumene hydroperoxide - 0.3-0.44; the specified accelerator 0.3-0.88.

In the technical solution of the composition used:

- binder - unsaturated polyesters PN-1 (GOST 27952-88), NPS 609 - 21M (GOST 27952-88); triethylene glycol dimethacrylate (tetrafunctional monomer) TGM-3 (TU 6-16-2010-82); MDF-2 oligoester acrylate (TU 6-01-1217-79); α-Metacryloyl-ω-methacryloyl - diethylene glycoloxy oligo (diethylene glycolphthalate) / 23 sec. Berlin A.A. and others. Acrylic oligomers and materials based on them. M., Chemistry, 1983 /; MGF-1 olioether acrylate (TU 6-01-750-72); α, ω-Bis (methacryloyloxy) oligo (ethylene glycolphthalate) / specified source - 22 s. Berlin A.A. and etc./. TGM-3, MDF-2, MGF-1 / Catalog "(Met) acrylic monomers and oligoester acrylates", Cherkasy, 1988 / are oligoester acrylates and binders that are cured using the proposed accelerator. They are often called unsaturated resins along with PN-1, NPS-609-21M, etc. Resin polyester unsaturated PN-1 - orthophthalic resin containing about 30% wt. styrene. Resin NPS-609 - about 30% wt. styrene. Resin NPS-60921M is a polyester unsaturated orthophthalic resin containing 55-60% TGM-3;

- MT-3 - a mixture of unsaturated polyester resin obtained by condensation of maleic anhydride with triethylene glycol in a molar ratio of 1: 1 when heated to a homogeneous state and then diluted with THM-3 in a mass ratio of 1: 1;

- plasticizer dioctyl phthalate C ₆ H ₄ (COOC ₈ H ₁₇ ) ₂ ; the cohesion energy density is 16.2 (MJ / m ³ ) ^1/2 or 7.9 (cal / cm ³ ) ^1/2 ;

- plasticizer dibutyl phthalate (GOST 8728-77).

- vanadium pentoxide (TU6-09-4093-88);

- butyl alcohol (GOST 5208-76);

- ammonium metavanadate MN ₄ VO ₃ (GOST 9336-75);

- metavanadic acid (TU 6-09-02-128-75);

- cumene hydroperoxide (TU 38-10293-82);

- phosphoric acid H ₃ PO ₄ , a colorless non-combustible liquid.

The invention is illustrated in six examples.

Example 1. In a chemical cylinder, oligoester acrylate of the MDF-2 brand is charged with 70.2 g (100 parts by weight), 0.53 g (0.75 parts by weight) of a vanadium accelerator and 0.26 g (0.37 wt. h) cumene hydroperoxides. The mixture is stirred with a glass rod for 1-3 minutes and left at room temperature. After 8-12 minutes, the composition is cured.

Example 2. According to example 1, take MT-3 60 g (100 parts by weight), 0.53 g (0.88 parts by weight) of a vanadium accelerator and 0.26 g (0.44 parts by weight) of hydroperoxide cumene. The composition cures in 3-5 minutes.

Example 3. According to example 1, take oligoester acrylate brand MGF-1 60 g (100 parts by weight), a vanadium accelerator 0.53 g (0.88 parts by weight) and cumene hydroperoxide 0.26 g (0.44 wt. hours). The composition cures in 4-5 minutes.

Example 4. According to example 1, only instead of MDF-2 take 65 g of TGM-3. The composition cures in 5-7 minutes.

Example 5. According to example 1 take unsaturated polyester resin brand NPS-609-21M 55.4 g (100 parts by weight), plasticizer dioctyl phthalate 5.54 g (10 parts by weight), vanadium accelerator 0.17 g (0 , 3 parts by weight) and cumene hydroperoxide 0.17 g (0.3 parts by weight). The composition cures in 17-20 minutes.

Example 6. According to example 1 take 50 g (100 parts by weight) of unsaturated polyester resin brand PN-1, a plasticizer dibutyl phthalate 10 g (20 parts by weight), a vanadium accelerator 0.25 g (0.5 parts by weight). ) and 0.15 g (0.3 parts by weight) of cumene hydroperoxide. The composition cures in 22-24 minutes.

Compositions (wt.h), cured by the proposed accelerator (examples 1-6)

Table No. of examples Binder Plasticizer, parts by weight Accelerator, parts by weight Initiator, parts by weight Curing time, min mark wt.h one. MDF-2 one hundred - 0.75 0.37 8-12 2. MT-3 one hundred - 0.88 0.44 3-5 3. MGF-1 one hundred - 0.88 0.44 4-5 four. TGM-3 one hundred - 0.82 0.4 5-7 5. NPS-609-21M one hundred 10 0.3 0.3 17-20 6. PN-1 one hundred twenty 0.5 0.3 22-24

The proposed composition can be used in the manufacture of: paints and varnishes (for example, varnish PE-265); sealants, compounds; fiberglass; polymer concrete for seamless floor and wall coverings; putties; putty and abrasive tools, etc.

The composition may include modifying additives, such as plasticizers, pigments, polymerization inhibitors (hydroquinone, phenothiazine), fillers and others.

An analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information, identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the claimed technical solution. The definition from the list of identified analogues of the prototype, as the closest in the set of essential features of the analogue, allowed us to identify the set of essential distinguishing features in relation to the seen technical result in the claimed composition set forth in the claims. Therefore, the claimed invention meets the condition of "novelty."

To verify the compliance of the claimed invention with the condition "inventive step", the applicant conducted an additional search for known solutions / Encyclopedia of polymers in 3 volumes M: "Soviet Encyclopedia", 1972-1977; Handbook of plastics. Ed. 2nd. In 2 volumes. Ed. Kataeva V.M. and others M., Chemistry, 1975; Berlin A.A. and others. Acrylic oligomers and materials based on them. Chemistry, 1983 /, coinciding with the distinctive features of the prototype features of the claimed composition. The search results showed that the claimed invention does not follow explicitly from the prior art for the specialist, since the influence of the transformations provided for by the essential features of the claimed invention on the achievement of the technical result is not revealed from the prior art determined by the applicant. The compositional composition formulations are unknown that ensure the achievement of the goal, which indicates the satisfaction of the criterion of "inventive step".

The claimed technical solution can be used in the medical and paint industry, it is disclosed in the application materials with the completeness sufficient for its implementation, and provides sharpening of medical needles from disposable stainless steel. Thus, the proposed solution meets the criteria of the invention of "industrial applicability".

Claims (1)

A composite composition comprising, as a binder, an unsaturated polyester resin or oligoester acrylate or their mixtures, modifying additives, an accelerator and an initiator - cumene hydroperoxide, characterized in that the polymerization accelerator is a complex compound obtained by the interaction of vanadium derivatives: vanadium pentoxide, or ammonium methavanadate metavanadic acid with a mixture of phosphoric acid, water, butanol in the following ratio of ingredients, parts by weight: Specified Binder one hundred Modifying additives 0-20 Cumene hydroperoxide 0.3-0.44 Specified Accelerator 0.3-0.88