RU1797616C - Polymeric composition for corrosion-resistant protection and sealing of metalworks - Google Patents

Description

The invention relates to unsaturated polyester compositions for corrosion protection and sealing of metal structures.

A composition for sealing and anticorrosion protection is known, containing an unsaturated polyether maleate resin, a polymerization initiator, a reaction product of allyl alcohol with toluene diisocyanate, a polyisocyanate. block copolymer of polyorganosiloxane and polyoxyalkylene, fluorinated alcohol, aerosil.

The disadvantage of this composition is unsatisfactory adhesive properties during operation, relatively fast gelation, which is not always acceptable in the technological process of coating.

Closest to the proposed technical essence and the achieved result is a composition containing the following components, parts by weight: Unsaturated polyester

inata gum100 Product of the reaction of allyl alcohol with toluene diisocyanate4 .5-18.6 Macrodiisocyanate 31.4-45.5 Alcohol telomere

polyfluorinated 3-7. Block copolymer of polyorganosiloxane and polyoxyalkylene 0.3-0.6

4

che vj

with about

with

The product of the interaction of maleic acid with

diethanrlamine 0.3-0.6 Aerosil AM-1-300 2-3 Polymerization accelerator 4-8 Polymerization initiator 2-6 A disadvantage of the known composition is that when the coatings are used in air, the adhesion strength decreases over time, as well as low processability compositions, low impact viscosity with high viscosity composition.

The purpose of the invention is to increase technological viability and decrease the viscosity of the composition, as well as increase the adhesive strength, impact strength and decrease the water absorption of the coating.

This goal is achieved in that the polymer composition containing an unsaturated polyether maleate resin, an isocyanate-containing component, an initiator and a polymerization accelerator, additionally contains the product laccol-2- (2,3-dioxibenzene) - 8,11-diene-hexadecane, and as an iso - a cyanogen-containing component g of macro-diisocyanate based on polyethylene glycol adipate mol.m, 800 and toluene diisocyanate in the following ratio of components, parts by weight: unsaturated polyether-: Natna resin 100 Macrodiisocyanate 8-12 Product varnish 0.1-3.0 Initiato polymerization accelerator 0.1-0.8 Polymerization accelerator 0.1-2.0 As a polymerization initiator, for example, methyl ethyl ketone peroxide, benzoyl peroxide, isopropylbenzene hydroperoxide, etc. can be used in combination with polymerization accelerators (cobalt naphthenate, dimethylaniline and others).

Laccol - 2- (2,3-dioxibenzene) -8,11-diene-hexadecane is the main component of latex extracted from lacquer wood (Rhus succedanea). Latex is poorly soluble in many solvents, resistant to dilute alkalis and acids. Latex is widely used for coatings in the aviation, automotive, and art industries. Extraction with ethyl alcohol followed by distillation gave laccol from latex. Laccol has the chemical formula

С22Нз402, the nomenclature name is 2- (2,3-dioxibenzene} -8.11-diene-hexadecane.

In the synthesis with an unsaturated polyphyrmaleinate resin and, as an independent component,

0 Macrodiisocyanate obtained from polydiethylene glycol adipate (PDA-800) and toluene diisocyanate (T65 / 35) at a molar ratio of 1: 2. Average mol.m macrodisocyanate, based on the content of isocyanate groups of 6.9-7.9%, is 1140.

Microdiisocyanate is

brand polyester interaction product

CDA-ZOR with toluene diisocyanate T65 / 35,

The composition is prepared as follows. Unsaturated polyether maleate resin, polymerization accelerator, macrodiisocyanate, lacquol are placed in the container. The mixture is thoroughly mixed at room temperature for 2-5 minutes

5 until a homogeneous mass is obtained, initiator is added and mixed again.

The table shows the compositions of the known and proposed compositions, data on their viability and physical and mechanical properties (examples 1-12).

In examples 1-7, the ratio of the components is selected in such a way that the compositions have a high technological viability time and sufficiently

5 high adhesive strength. .

In examples 8-12 (control), it is seen that a change in the boundary values of the components leads to a sharp decrease in the indicators of impact strength, adhesive

0 strength and vitality, increase in viscosity.

. Analyzing the results, we can conclude that the introduction into the composition as an isocyanate-containing

.5 a component of macrodiisocyanate and additionally introducing laccol into the product within the specified limits leads to an increase in the technological viability of the composition and high adhesion strengths, decreases viscosity, decreases water absorption and increases toughness. The anticorrosive and sealing properties of the claimed composition are illustrated by water absorption. So, for example, when applying the known composition, the technological viability time does not exceed 0.5 h, and the adhesive strength after 3 days when the air is cured is 8.5 MPa, while

how the proposed composition, depending on the composition, has a pot life that can be adjusted from 5.5 to 40 hours, and at the same time has an adhesive strength of 9.9-21.8 MPa after 3 days.

Thus, high adhesive properties, reduced water absorption and increased toughness of the proposed polymer composition can improve the reliability of polymer

coatings, and increased pot life of the composition make the proposed composition more technologically advanced.

The proposed composition can be applied to metal surfaces by all known methods (brush, spatula, watering, spraying, etc.).

This composition can be produced on existing equipment in the chemical industry.

FORMULA AND ZOBRETE N and

A polymer composition for anticorrosive protection and sealing of metal structures, including an unsaturated polyester maleate resin, an isocyanate-containing component, a polymerization accelerator and a polymerization initiator, characterized in that, in order to increase technological viability and decrease the viscosity of the composition, as well as increase the adhesive strength and impact strength and reducing the water absorption of the coating, K0. MP91I4 I contains as an isocyanate-containing component of mdcroisocyanate based on prididiethyl glikoladipi- Nat molecular weight 800 and toluene di-cyanate and optionally the product of laccol-2- (2,3-dioxibenzene) -8,11-dienhexadecane in the following ratio of components, parts by weight: unsaturated polyether maleate resin 100; macroisocyanate 3-12; product laccol 0.1-3.0 polymerization initiator. 0.1-8; polymerization accelerator 0.1-2.