RU2133256C1 - Bactericide dye "ekotermofos" - Google Patents

Abstract

FIELD: dyes, antibacterial agents. SUBSTANCE: invention describes the new bactericide dye involving a binding agent, titanium dioxide and a bactericide addition and characterized with aluminoboronphosphate as a binding agent and polyhexamethylene guanidine phosphate as a bactericide addition and containing additionally magnesium oxide, silicon oxide, aluminium hydroxide and calcium carbonate at the following ratio of components, wt.-%: titanium dioxide, 9.0-31.4; polyhexamethylene guanidine phosphate, 3.0-7.0; magnesium oxide, 0.4-2.3; silicon oxide, 1.6-4.8; aluminium, 0.1-1.0; calcium carbonate, 0.3-3.1; and aluminoboronphosphate binding agent, the balance. EFFECT: enhanced antibacterial, adhesion and water-resistant properties of dye. 2 cl, 1 tbl

Description

 The invention relates to the field of paint and varnish industry and can be used for coating with bactericidal properties on metal and nonmetallic / concrete, brick and ceramic / surfaces of products and structures.

Known paint, including alumina-phosphate binder, titanium dioxide, silicon dioxide, kaolin, inorganic pigment and water. / Aut. St. USSR N 706428, class C 09 D 1/00, 1978 /
A disadvantage of the known paint is the high heat treatment temperature / 250 ^o C /, low abrasion resistance and low protective and bactericidal characteristics.

The closest to the intended purpose of the proposed paint is a bactericidal paint, including as a base alkyd-melamine or pentaphthalic enamels / for example, ML-12 or PF-115, which are a suspension of various pigments, in particular titanium dioxide in an amount of 10-20% and fillers in an organic solvent with the addition of a desiccant. As a bactericidal additive use a 15% mixture of ethanol mercuric chloride / alkacid - 2 / with alkamone OS-2. / Samoilov F.V., Semenova L.I. et al. Collection "Chemistry and Chemical Technology. Synthesis and Study of Film-Forming Substances and Pigments". Yaroslavl, 1973, pp. 92-94./
Known paint has antimicrobial activity against Escherichia coli, Staphylococcus aureus, spores of anthracoid, persisting for 2 years.

 The disadvantages of the paint include: high toxicity, flammability, as a result of which, in case of fire, it can release a large number of highly toxic compounds, low duration of antimicrobial activity and high cost.

 The technical result achieved is to increase: the antimicrobial properties of the paint, its adhesive characteristics and water resistance.

To achieve a technical result, a bactericidal paint, including a binder, titanium dioxide and a bactericidal additive, contains an alumina-phosphate binder as a binder, contains polyhexamethylene guanidine phosphate and additionally magnesium oxide, silicon dioxide, aluminum hydroxide and calcium carbonate in the following ratio of components, wt .%:
Titanium Dioxide - 9.0 - 31.4
Polyhexamethylene guanidine - 3.0 - 7.0
Magnesium Oxide - 0.4 - 2.3
Silicon Dioxide - 1.6 - 4.8
Aluminum hydroxide - 0.1 - 1.0
Calcium carbonate - 0.3 - 3.1
Alumoborophosphate Binder - Else
To obtain paints of various colors, the composition additionally contains a coloring pigment in an amount of 20.0 to 30.0 wt.%.

 The aluminum-borophosphate binder is a concentrated aqueous solution of acidic aluminum phosphates and boric acid and is a thick, syrup-like, transparent, colorless, odorless liquid with astringent and adhesive properties.

Use ABFS according to TU 113-08-10-17-83 with a density of 1.5 - 1.7 g / cm ³ with a mass fraction of P on P ₂ O ₅ - 36-39% AI calculated on Al ₂ O ₃ - 8 - 9%, B based on B ₂ O ₃ - 2-3%. You can use ABFS according to TU 113-08-606-87 with a density of 1.5 - 1.7 g / cm ³ , with P - 36 - 39; Al - 8-9%, B - 1.3 - 2.0%. The aluminoborophosphate binder used is diluted with water to a density of 1.33 g / cm ³ at a pH of 2.2 before being introduced into the paint.

 Phosphate binder is a cementitious component with respect to paint components and, in composition with them, forms a stable irreversible structure with a number of valuable properties, good adhesion to the substrate, sufficient mechanical strength and water resistance after heat treatment.

 With a decrease in the composition of ABFS paint from 53 wt.%, The adhesion of the paint deteriorates and its strength decreases, and with an increase in ABFS above 60.0 wt.%, The water resistance of the paint-based coating decreases.

 The introduction of polyhexamethylene guanidine phosphate (PHMHF) into the paint determines its bactericidal properties. A method for producing PHMHF is described in SU 944290 A, 1986. PHMHF is a highly effective non-toxic polymer antiseptic preparation, available in the form of an aqueous 25% solution and an anhydrous product. In this composition, a white powder is used that is completely soluble in water. The polymer nature of PHMHF provides for the formation on the surface treated long-lasting polymer film that protects the surface from microorganisms. The antibacterial activity of PHMHF changes little under the influence of the external environment; it is readily soluble in water.

It was found that a 4% solution of PHMHF causes the death of gram-positive and gram-negative microorganisms:
corynebacteria diphtheria, Staphylococcus aureus, typhoid bacillus, Escherichia coli, Proteus vulgaris, Pseudomonas aeruginosa, as well as tuberculosis bacteria.

 Although the number of elementary units in the macromolecule has some effect on the antimicrobial properties, it is small. Therefore, samples of PHMHP of different molecular weights have approximately equal bactericidal activity.

 According to the Institute of Virology. D.I., Ivanovsky AMS, PHMHF has a strong virucidal effect against herpes simplex viruses, AIDS virus and hepatitis A.

 Bactericidal paint with the addition of PHMHF has a wide spectrum of biocidal action: bactericidal, virucidal, fungicidal and sporocidal.

According to the research institute of human ecology and environmental health them. A.N.Sysina complete inactivation of (100%) Escherichia coli and coliphages is observed in less than 3 hours of contact with the surface of the paint. The concentration of more stable forms of microorganisms / molds and spores / after 3 hours decreased by 10 times, and after 7 days more than 100 times. The fungicidal effect increases with increasing air temperature / 37 - 40 ^o C /, while on the 7th day the concentration of fungi decreased by 10,000 times and remained at the level of single cells.

 With a decrease in the composition of the paint PHMHF less than 3 wt.% Decreases the bactericidal effect of the coating, with an increase in the content of fogucide more than 7.0 wt. % the hiding power of the paint worsens, and its cost also increases.

Titanium dioxide TiO ₂ acts as a filler and pigment for white paint. An increase in the content and a decrease in the content of titanium dioxide in the paint composition leads to a change in the color of the paint layer. When the TiO ₂ content increases above 31.4 wt.%, The color does not change, but the strength properties of the paint can change, and when the TiO ₂ content is lower than 9.0 wt.%, The paint layer fades.

 Chromium oxide is used as a pigment for green paint, iron red oxide and "Dulevsky black" based on iron, chromium and cobalt oxides are used for gray paint.

 If the pigment in the paint composition is less than 20 wt.%, The paint layer turns faded, and with an increase of more than 30 wt.% - the strength properties of the paint are reduced.

 Magnesium oxide promotes faster curing of the paint layer.

 With a decrease in MgO of less than 0.4 wt.%, The curing of the paint layer occurs slowly, and with an increase in its content of more than 2.3 wt.%, The stability of the composition decreases and its coagulation is possible.

Silicon dioxide is introduced to increase adhesion and cohesion. Silica SiO ₂ can be silica sand.

 With an increase in the content of silicon dioxide of more than 4.8 wt.%, The adhesive characteristics decrease, and with a decrease in its content of less than 1.6 wt.%, The strength decreases.

Aluminum hydroxide Al (OH) ₃ is introduced into the paint composition for mechanical hardening of the paint layer.

 With a decrease in the content of aluminum hydroxide of less than 0.1 wt.%, The strength of the paint layer decreases, and an increase in its content of more than 1.0 wt.% Leads to friability of the paint layer.

Calcium carbonate CaCO ₃ contributes to a higher homogenization of the composition, and also improves adhesion and water resistance. Reacting with an excess of ABFS acid, calcium carbonate neutralizes it, and the CO ₂ released during this improves the homogenization of the paint.

Excess CaCO ₃ in an amount of more than 3.1 wt.% Leads to a deterioration in the adhesion of the paint, and a deficiency of less than 0.3 wt.% Leads to an increase in the acidity of the paint solution, which affects the deterioration of water resistance.

The Dulevsky black pigment based on iron, chromium and cobalt oxides is used under N 83. Other pigments can also be used, for example NN 81, 82, 91, etc. / "Ceramic paints, V.A. Vezir and others. Kiev," Technique ", 1964, p. 112 /
The proposed composition of the paint is the most optimal and identified as a result of numerous experiments.

 The paint is prepared as follows.

Powders of the ingredients with a fineness of 10-20 microns, preferably 10 microns, are thoroughly ground and homogenized. ABFS used according to TU 113-08-10-17-83 is diluted with water to a density of 1.33 g / cm ³ before use, pH 2.2.

 The dry mixture of ingredients is mixed with ABFS until a homogeneous mass is obtained.

 The resulting paint is applied by brush or roller to the previously prepared surface of steel, aluminum, aluminum alloys, ceramics, brick and concrete.

After drying in air for 10 minutes the painted surface is subjected to heat treatment at 120 - 140 ^o C.

 Depending on the color of the pigment, the paint is white, gray or green.

 The table shows specific examples of the composition of the paints within the stated limits, the composition of the paints that go beyond the stated limits and the achieved technical result in comparison with the prototype.

Claims (1)

1. A bactericidal paint comprising a binder, titanium dioxide and a bactericidal additive, characterized in that it contains an aluminoborophosphate binder as a binder, polyhexamethylene guanidine phosphate and additionally magnesium oxide, silicon dioxide, aluminum hydroxide and calcium carbonate in the following ratio of components , wt.%:
Titanium Dioxide - 9.0 - 31.4
Polyhexamethylene guanidine phosphate - 3.0 - 7.0
Magnesium Oxide - 0.4 - 2.3
Silicon Dioxide - 1.6 - 4.8
Aluminum hydroxide - 0.1 - 1.0
Calcium carbonate - 0.3 - 3.1
Aluminoborphosphate Binder - Else
2. The paint according to claim 1, characterized in that it further comprises a coloring pigment in an amount of 20 to 30 wt.%.

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