RU2647532C1 - Complex additive for foam concrete mixture - Google Patents

Abstract

FIELD: construction materials.

SUBSTANCE: invention relates to construction materials and can be used as a complex additive in mortar mixture when producing foam concrete. Complex additive for foam concrete mixture contains, % by weight: foaming agent on the protein base 94.2–94.8, polyvinyl acetate 5.2–5.8.

EFFECT: technical result is a decreased sorption humidity and water absorption of the foam concrete.

1 cl, 1 ex, 1 tbl

Description

The invention relates to building materials and can be used as a complex additive in the mortar mixture in the production of foam concrete.

Known complex additive for foam concrete mixture containing sodium chloride in an amount of 58.8-71.4, a protein-based foaming additive in an amount of 8.2-11.8, a sol of silicic acid in an amount of 20.4-29.4 (RU No. 2381192, С04B 24/14, published on 02/10/2010).

Closest to the proposed invention is a complex additive containing a protein-based foaming additive and a silica sol in the following ratio of components, wt.%: Protein-based foaming additive is 3.7-4.2, silicic acid sol is 95.8- 96.3 (RU No. 2377207, С04B 22/08, С04B 24/14, С04B 38/10, published on December 27, 2009).

The disadvantages of such complex additives are insufficient physical and mechanical properties: sorption humidity and water absorption of the resulting foam concrete.

The objective of the invention is to reduce sorption moisture and water absorption of foam concrete.

The technical result of the invention is achieved in that a complex additive for a foam concrete mixture containing a protein-based foam-forming additive further comprises polyvinyl acetate in the following ratios of components, wt.%:

Protein Based Foaming Agent 94.2-94.8 Polyvinyl acetate 5.2-5.8

Concrete example

A complex additive for a foam concrete mixture containing a protein-based foam-forming additive and polyvinyl acetate is used to prepare building foam in the following ratios of components, wt.%:

Protein Based Foaming Agent 94.2-94.8 Polyvinyl acetate 5.2-5.8

The following brands can be used as a protein-based foaming additive: Addiment SB 31L (dark brown liquid, foaming pH range: 6-10; the main active substance is proteine hydrolyzate (Khitrov A.V., abstract for the study of art. Doctor of Technical Sciences “Technology and properties of foam concrete, taking into account the nature of the foam introduced.” St. Petersburg: PGUPS, 2006); scope: as an additive for the production of foam concrete; trademark RENIMENT SB 31L; manufacturing company “SIKA ADDIMENT GmbH” B-69171 Leimen, Germany), as well as FOAMCEM (the main active substance is protein drolizate; scope: foaming agent for the preparation of lightweight cellular concrete; manufacturer LastonItaliana SPA) and GreenFroth-P (the main active substance is protehydrolyzate; scope: for the production of foam concrete, as well as for the manufacture of light wall and finishing; manufacturer ISOLTECH sncdiScarpa & С ViaC. Colombo, 41 24020 RANICA (BG), Italy). Polyvinyl acetate has the following composition, wt.%: Polymer polyvinyl acetate - 85-95, water - up to 10, dibutyl phthalate plasticizer - at least 5.

Below are the results of a study of the proposed complex additives for foam concrete mix.

Cement sand mixture composition, wt.%: Portland cement grade M400-D20 - 72%, sand SiO ₂ - 28% is mixed with water at a water-binding ratio (W / V) of 0.40.

A concentrated protein-based foaming additive FOAMCEM is dosed with a percentage concentration of the basic substance of 70% in an amount of 0.35% by weight of cement, polyvinyl acetate in an amount of 0.1% by weight of cement, mixed in a polyethylene container and a construction solution of a foaming additive is obtained. Using a foam generator, building foam is obtained. The resulting construction foam is mixed with the prepared mortar until a homogeneous foam concrete mixture is obtained.

Samples of foam concrete made with the proposed complex additive for foam concrete harden under natural conditions. After 28 days of hardening, the samples are tested in accordance with GOST 25485-89 "Cellular concretes. Technical conditions. " The results are presented in 1 table.

The analysis of the results shown in the table indicates that the introduction of the specified complex additives for the foam concrete mixture leads to a decrease in sorption moisture and water absorption of the material in comparison with the values achieved when using the prototype.

Claims (2)

A complex additive for foam concrete mixture, including a protein-based foam-forming additive, characterized in that it additionally contains polyvinyl acetate in the following ratio of components, wt.%: protein-based foaming agent 94.2-94.8 polyvinyl acetate 5.2-5.8