RU2600949C1 - Fungicidal additive for mineral construction compositions - Google Patents

Abstract

FIELD: biochemistry.

SUBSTANCE: invention relates to production of fungicidal agents for protection from biodeterioration by microorganisms of construction materials. Fungicidal additive for mineral construction compositions, representing phloroglucinol furfural oligomer, obtained by polycondensation of furfural, phloroglucinol and sodium hydroxide, at ratio of furfural and phloroglucinol equal to 1:2, and content of caustic soda is equal to 50 % of phloroglucinol weight.

EFFECT: technical result of present invention consists in minimizing concentration of fungicidal additives in ceramic slurry, mortar and so on, at maintaining its properties.

1 cl, 3 tbl

Description

The invention relates to the field of fungicidal additives for protection against biological damage by microorganisms of building materials.

From the prior art are known: a biocidal additive for water-based paints (RF Patent No. 2398805) containing shungite-silver nanocomposite in the ratio of shungite: silver 2: 1 by weight, respectively; a synergistic biocidal composition (RF Patent No. 2278515) containing pyrithione and 2-alkylisothiazolin-3-one, which protect and inhibit the development of harmful microorganisms in water-based paints, industrial objects and materials.

The disadvantage of these fungistatic substances is the high cost and lack of effectiveness, in addition, and the narrow specificity of the application.

The closest to the proposed method in terms of technical nature and the achieved result is a fungicidal modifier of mineral building compositions (RF Patent No. 2235695), which is a condensation product of the production of resorcinol with furfural, containing, wt.%: 20 - the product of the resinification of waste production of resorcinol - a mixture of disubstituted phenols and aromatic sulfonic acids, and 80 - oligomeric products of condensation of waste products of resorcinol with furfural formula.

A significant disadvantage of the prototype is the low fungicidal activity in the composition of mineral building compositions.

The problem to which the invention is directed, is to impart fungicidal properties to mineral building compositions with a small concentration of additives in their composition.

The technical result of the invention is to minimize the concentration of fungicidal additives (ceramic slip, mortar, etc.).

The technical result is achieved in that the fungicidal additive for mineral building compositions, which is a phloroglucinofurfural oligomer, obtained by polycondensation of furfural, phloroglucin and caustic soda, with a ratio of furfural and phloroglucin equal to 1: 2, and the content of caustic soda is 50% by weight of phloroglucin.

The proposed fungicidal additive for mineral building compositions differs from the prototype in that it is a phloroglucinofurfural monomer obtained by polycondensation of furfural, phloroglucin and caustic soda, with a ratio of furfural and phloroglucin equal to 1: 2, and the content of caustic soda is 50% by weight of phloroglucin.

For the preparation of phloroglucinofurfural oligomer, phloroglucin is used in accordance with TU 6-09-3741-79, furfural in accordance with GOST 10930-74 and caustic soda (NaOH) in accordance with GOST 2263-79.

For experimental verification of the effectiveness of the proposed fungicidal additives for mineral building compositions, aqueous solutions were prepared that are the product of the polycondensation of phloroglucin with furfural, and various types of mineral building compositions (heavy concrete, mortar, ceramic slip, etc.) were shut with these solutions. As a result of this, the additive is uniformly distributed throughout the volume of the material.

The tests were carried out in accordance with GOST 9.048-95 on a mixture of mold fungi strains isolated from the surface of concrete and other products, as well as structures operated in biologically aggressive environments. The results of determining the fungus resistance of heavy concrete, as well as mortars and ceramic slips at various concentrations of fungicidal additives, which is a polycondensation product of phloroglucin with furfural, are presented in table 1.

As can be seen from table 1, the introduction of the proposed fungicidal additive to the composition of the materials, which is a polycondensation product of phloroglucin with furfural, with mixing water in a concentration of 0.05-0.3% by weight of cement or ceramic slip completely inhibits the growth of molds.

The results of a comparative analysis of the fungus resistance of the prototype and the proposed fungicidal additives are presented in table 2.

Studies have established (table 2) that the proposed fungicidal additive compared with the prototype at a concentration of 0.05% by weight of cement or ceramic slurry completely inhibits the growth of molds.

To study the toxicity of the claimed substance and prototype in water extracts of various types of mineral building compositions, the biotesting method was used. As a test object, Daphnia Magna Straus was used (table 3).

As can be seen from table 3, the claimed additive is not toxic to the environment.

From the above examples it is seen that the claimed substance allows you to protect mineral building compositions from microorganisms at low concentrations in their composition, in addition, it is not toxic to the environment. Thus, the claimed technical result is achieved.

Claims (1)

 A fungicidal additive for mineral building compositions, which is a phloroglucinofurfural oligomer obtained by polycondensation of furfural, phloroglucin and caustic soda, with a ratio of furfural and phloroglucin equal to 1: 2, and the caustic soda content is 50% by weight of phloroglucin.