RU2178431C2 - Anticorrosive polymeric composition - Google Patents

Abstract

FIELD: anticorrosion protection of metals and building structures. SUBSTANCE: resin based mastic composition comprises, wt. pts: furane-epoxy resin, 100-110; andesite meal, 200-220; polyethylene polyamine, 20-22; hydraulic fluid, which is ester of para-tertiary butyl phenol, phenol and orthophosphoric acid of formula:

Description

 The invention relates to the production of polymer compositions based on epoxy resins used for anticorrosive protection of metals and building structures, in particular mastic based on furanoepoksidnoy resin FAED.

Known anticorrosion mastics based on the resin furano-epoxy resin FAED-8, which are stable in water, in acidic and alkaline media of low and medium concentration at temperatures up to 100 ^o C, they are characterized by high adhesion to all building materials, but their disadvantage is fragility ( low elasticity).

 The closest in composition and properties to the proposed composition is an anticorrosive polymer composition, including furanoepoksidny resin, polyethylene polyamine and andesitic flour (V. Safronchik, Protection against corrosion of building structures and technical equipment, L.: Stroyizdat, 1988, p. 55).

 A disadvantage of the known composition is also low elasticity.

 It is known that in order to increase elasticity, plasticizers, for example dibutyl phthalate or liquid nitrile rubbers CKH-26-la (Chekulaeva E.I. et al. "Protection of building structures and chemical equipment from corrosion", M. are introduced into the composition of anticorrosive polymer compositions, M.: Stroyizdat, 1989, p. 86). However, dibutyl phthalate eventually leaves epoxy coatings, and rubber plasticization increases the viscosity of the composition.

 The problem to which the invention is directed, is to increase the elasticity of the polymer composition based on furanoepoksidnoy resin FAED.

при следующем соотношении компонентов, мас. ч. :
Смола ФАЭД-8 - 100-110
Андезитовая мука - 200-220
Полиэтиленполиамин - 20-22
Гидравлическая жидкость ГЖФК - 8-9
Композицию готовят смешением компонентов в следующей последовательности: смолу ФАЭД-8 берут готовую (ТУ 59-02-03-18-80) или получают взаимодействием 60 вес. ч. эпоксидно-диановой смолы ЭД-16 (Гост 10587-84) и 40 вес. ч. мономера ФА (продукт взаимодействия фурфурола с ацетоном в эквимолярном соотношении в присутствии щелочного катализатора) при 50-60^oC в течение 1 часа. К смоле ФАЭД-8 добавляют расчетное количество андезитовой муки (ТУ 6-12-101-17) и гидравлической жидкости ГЖФК (ТУ 6-02-1114-77) и перемешивают до однородной консистенции. В полученную суспензию вводят полиэтиленполиамин (ТУ 6-02-594-85) и снова перемешивают.This problem is solved in that the anticorrosive polymer composition, including furanoepoksidnoy resin FAED-8, polyethylene-polyamine and andesitic flour, additionally contains a hydraulic fluid GHFA, which is an ester of paratertic butylphenol and phosphoric acid of the formula:

in the following ratio of components, wt. hours:
Resin FAED-8 - 100-110
Andesitic flour - 200-220
Polyethylene Polyamine - 20-22
GZhFK hydraulic fluid - 8-9
The composition is prepared by mixing the components in the following sequence: the FAED-8 resin is taken ready (TU 59-02-03-18-80) or obtained by the interaction of 60 weight. including epoxy-dianovoy resin ED-16 (GOST 10587-84) and 40 weight. including monomer FA (the product of the interaction of furfural with acetone in an equimolar ratio in the presence of an alkaline catalyst) at 50-60 ^o C for 1 hour. The calculated amount of andesitic flour (TU 6-12-101-17) and hydraulic fluid GZHFK (TU 6-02-1114-77) are added to the FAED-8 resin and mixed until a homogeneous consistency. Polyethylene polyamine (TU 6-02-594-85) is introduced into the resulting suspension and mixed again.

 For testing, the resulting composition is put with a spatula on a tin plate and kept at room temperature for 15 days until completely dry.

To accelerate the polymerization process after three days of exposure, warming up with hot air (60 ^o C) for 6-8 hours. The completeness of polymerization is determined using a swab soaked in a solvent; if complete polymerization has occurred, the swab remains clean.

 The obtained samples were tested for film elasticity in bending according to GOST 6806-73. In the table. 1 shows the composition options of the proposed composition and the results of elasticity tests of coatings based on them.

 In the table. 2 presents the test results of composition No. 2 for the protection of the ventilation system (example 1) and tanks (examples 2-6) from corrosion.

 From the above data it is seen that the proposed composition has a higher elasticity in comparison with the prototype and high anti-corrosion properties.

Claims (1)

Anticorrosive polymer composition, including furanoepoksidny brand FAED-8, polyethylene polyamine and andesitic flour, characterized in that it additionally contains a hydraulic fluid GHFA, which is an ester of paratertic butylphenol, phenol and phosphoric acid of the formula:

in the following ratio of components, wt. hours:
Resin FAED-8 - 100 - 110
Andesitic flour - 200 - 220
Polyethylene polyamine - 20 - 22
Hydraulic fluid ГЖФК - 8 - 9

Images