RU2527438C2 - Complex additive to mortars - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to field of construction materials, in particular to complex additives, used in production of mortars, in masonry and plaster works. Complex additive to mortars, consisting of lignosulphonate-based plasticiser and air-entraining additive, in accordance with invention, as air-entraining additive, it contains composition of surface-active substances (SAS), which includes low-hydrophilic surface-active substances with value of hydrophilic-lipophilic balance (HLB) 1…3 and highly-hydrophilic surface-active substances with HLB value 30…40 with the following ratio, wt %: lignosulphonates - 80-95; composition of surface-active substances - 5-20. SAS composition includes low-hydrophilic substances with HLB value 1…3 and highly-hydrophilic substances with HLB value 30…40 with the following ratio of components, wt.p.: low-hydrophilic SAS with HLB value 1…3 - 5-20, highly-hydrophilic SAS with HLB value 30…40 - 80-95. Complex additive can additionally include hydrophilic stabiliser from the group of vegetable, artificial or microbiological polysaccharides in amount 1-10% of the total weight of lignosulphonate and composition of surface-active substances.

EFFECT: increased degree of air-entraining, increase of time for which mortar preserves its mobility.

2 cl, 4 ex, 2 tbl

Description

The invention relates to the field of building materials, in particular to complex additives used in the manufacture of mortars used in masonry and plastering.

The technological characteristics and operational properties of mortars are determined not only by the type of binder and dispersion of the aggregate, but also significantly depend on the complex additives introduced into their composition. The action of these additives is diverse. For mortars, important characteristics are the ability to be easily applied to the surface and leveling, long-term preservation of mobility and uniformity (non-separability). In many respects, these characteristics are achieved by ensuring proper air intake, while, unlike concrete, in mortar mixtures, the air content can reach 15-20%, and mobility is required for 6 hours or more.

To ensure these characteristics, complex additives are used, as a rule, including plasticizers and air-entraining agents. Superplasticizers based on polymethylene naphthalenesulfonates and lignosulfonates are used as plasticizers, and by-products of wood chemistry (START) or alkyl sulfates with different lengths of hydrocarbon radicals are used as air entraining agents. The action of air-entraining additives is based on the saturation of mortar mixtures with air microbubbles, which facilitate mixing and ensure uniform distribution of components. In the absence of air-entraining components in the additive, air bubbles that enter the mortar mixture are unevenly distributed over its volume, coalesce relatively quickly, and air in the form of large bubbles comes to the surface.

A complex additive for porous concrete is known [RF Patent No. 2143413 of 02/04/1999], containing a functionally active additive from the group: technical lignosulfonates, technical lignosulfonates, technical yeast mash, sulphite-yeast mash, polyvinyl acetate aqueous dispersion, or aqueous dispersions of styrene butadiene copolymers acrylonitrile, or alkyldimethylamine oxide, or casein glue, or an aqueous layer of caprolactam production, or water glass, or alkyl benzosulfonic acid, or carboxymethyl cellulose, or bone glue or the sodium salt of the condensation product of naphthalene with formaldehyde, or a mixture of sodium or triethanolamine salts of primary fatty alcohol sulphates of the C10-C18 fraction, or a mixture of sodium or triethanolamine salts of synthetic alkylamide sulfates of the synthetic fatty acid fraction of C10-C16 fraction, or a mixture of sodium or calcium C19 calcium salt C25, or a mixture of sodium or triethanolamine salts of sulphates of monoethane olamides of synthetic fatty acids of fraction C12-C16, or chlorides, sulfates, nitrates or nitrites of alkali metals, or their double or triple mixtures in a mass ratio of ingredients of 1: 1 and 1: 1: 1, respectively, in the amount of 6.5-12.5%, saponified wood resin 20.0-48.0%, sodium salt of phenol production waste condensation products on based on cumylphenol and α-methylstyrene dimers 39.5-73.5%.

The disadvantage of this additive is a short period of providing plastic properties, as well as an insufficient level of air entrainment when added to mortars.

These disadvantages are largely eliminated in the patent [JP No. 1290573 publ. 1989-11-22. PRODUCTION OF AERATED CONCRETE]. In the invention, an additive based on lignosulfates as a plasticizer finds use as a complex additive for producing lightweight concrete, and triterpene and alkyl sulfates are used in the composition of the air-entraining additive. This allows you to get lightweight concrete with a uniform distribution of bubbles in the concrete mix. The disadvantage of this composition of the complex additive is the insufficient level of initial air intake with an average level of preservation of the mobility of the solution, with low biological stability of triterpene during storage.

The technical task of the present invention is to provide a comprehensive additive to mortars, providing long-lasting mobility of the mortar and a stable level of air entrainment.

The problem is solved in that a complex additive to mortars, consisting of a plasticizer based on lignosulfonate and an air-entraining additive, according to the invention, as an air-entraining additive contains a composition of surface-active substances (SAS), including low-hydrophilic surface-active substances with a value of hydrophilic-lipophilic balance (HLB) 1 ... 3 and highly hydrophilic surfactants with an HLB value of 30 ... 40.

These components are included in the additive in the following ratio, wt.%:

lignosulfonates - 80-95;

composition of surfactants - 5-20.

The surfactant composition includes low hydrophilic substances with an HLB value of 1 ... 3 and highly hydrophilic substances with an HLB value of 30 ... 40 in the following ratio of components, parts by weight:

low hydrophilic surfactants with an HLB value of 1 ... 3 - 5-20;

highly hydrophilic surfactants with HLB 30 ... 40 - 80-95.

In this case, a hydrophilic stabilizer from the group of plant, artificial or microbiological polysaccharides in an amount of 1-10% of the total mass of lignosulfonate and composition of surfactants can be added to the complex additive.

The use of a complex additive containing a plasticizer together with an air-entraining component in the form of a surfactant composition, including low-hydrophilic surfactants with an HLB value of 1 ... 3 and highly hydrophilic surfactants with an HLB value of 30 ... 40, is the most effective way to improve initial air intake (15-17%) while maintaining the mobility of the mortar for 6-8 hours. When using ethoxylated fatty alcohols with low HLB, insufficient air entrainment is observed and the initial plasticity (mobility) of the solution is not ensured, and when using sulfooxyethylated alcohols alone, the stability of the air involved is not ensured. Their use in the mixture allows due to the synergistic effect to ensure uniform distribution of air bubbles throughout the volume of the mixture, characterized by their optimal size and the absence of their exit to the surface in the form of large bubbles. This ensures a longer duration of the period of persistence of the mobility of the solution.

The claimed range of ratios of the components of the complex additives is established experimentally and is optimal. When the content of the air-entraining component is more than 20%, excessive air entrainment is observed even at reduced (≤0.1%) dosages, and in addition, the required mobility retention of mortar mixtures is not provided. When the content of the air-entraining component is less than 5%, to ensure optimal air entrainment, increased dosages of the complex additive are required, causing a decrease in the strength characteristics of the solution.

The most effective way to use the air-entraining component of a complex additive for mortar is to use a composition of low-hydrophilic surfactants with HLB 1 ... 3 and highly hydrophilic surfactants with HLB 30 ... 40 when mixing them in different proportions depending on the brand and characteristics of the chemical composition of cement, type of fillers, technological features production and operation techniques. The minimum content of low hydrophilic surfactants in the composition, in which they effectively stabilize the air involved, is 5 wt.%. When the content of highly hydrophilic surfactants with HLB of 30 ... 40 is less than 80 wt.%, A decrease in the initial level of air entrainment in mortars is noted.

The additional introduction of a hydrophilic stabilizer from the group of plant, artificial or microbiological polysaccharides in an amount of 1-10% of the total mass of lignosulfonate and surfactant composition leads to an additional increase in the stability of all technological characteristics of the mortar.

The introduction of less than 1% hydrophilic stabilizer of the total weight of the complex additives is not technologically feasible. With the introduction of more than 10% hydrophilic stabilizer, the stability of the complex additive to delamination during storage decreases, and this also creates excessive adhesion to the tool during application and smoothing of the solution.

Thus, the complex additive for mortar, proposed in the invention, allows not only to plasticize the mortar while maintaining its mobility, but also to increase air absorption.

The inventive complex additive is prepared by dosing and mixing a plasticizer-lignosulfonate technical, liquid, made in accordance with TU 2455-028-00279580-04, and a surfactant composition comprising low-hydrophilic surfactants with an HLB value of 1 ... 3 in the amount of 5-20 wt .% and highly hydrophilic surfactants with an HLB value of 30 ... 40 in the amount of 80-95 wt.%.

In more detail, the technical nature of the invention and the effects achieved can be illustrated by the following examples.

Example 1. As a surfactant composition, a mixture of low-hydrophilic hexyl decaethylene glycol with HLB = 2.4 and a high-hydrophilic sodium sulfate salt of the indicated alcohol with HLB = 39.2 was used. The ratio of these surfactants was 5:95. The content of air-entraining additives is 20 wt.%. The content of lignosulfonate is 80 wt.%.

Example 2. As a surfactant composition, a mixture of a low hydrophilic decyldodecaethylene glycol with HLB = 1.16 and a high hydrophilic sodium sulfate salt of the indicated alcohol with HLB = 38.0 was used. The ratio of these surfactants was 10:90. The content of air-entraining additives is 10 wt.%. The content of lignosulfonate is 90 wt.%.

Example 3. As a surfactant composition, a mixture of low hydrophilic hexyloctaethylene glycol with HLB = 1.74 and a high hydrophilic sodium sulfate salt of the indicated alcohol with HLB = 38.5 was used. The ratio of these surfactants was 15:85. The content of air-entraining additives is 20 wt.%. The content of lignosulfonate is 80 wt.%.

Example 4. As a surfactant composition, a mixture of low hydrophilic hexyl dodecaethylene glycol with HLB = 3.0 and high hydrophilic sodium dodecyl sulfonate with HLB = 33.1 was used. The ratio of these surfactants was 20:80. The content of air-entraining additives is 5 wt.%. The content of lignosulfonate is 95 wt.%.

Verification of the properties of the complex additives of the present invention was carried out in accordance with GOST 30459-2011, as well as at reduced cement consumption (up to 250 kg / m ³ ) and when using sand with a microcritical coating of up to 1.5.

Technological and strength characteristics of mortars with the same consumption of additives according to this application and with the additive prototype are presented in table 1.

As can be seen from these data, with the use of the patented additive, the duration of the mobility of the solution increases, the air entrainment increases significantly, and the density decreases. At the same time, an increase in the compressive strength of the mortar is observed both at the age of 7 and at the age of 28 days.

Table 2 illustrates the effect of a hydrophilic stabilizer on mortar performance. In the examples given, the composition of Example 1 was used as a complex additive according to the invention, and ethoxylated cellulose at a dosage of 1% by weight of the complex additive and plant polysaccharide - sodium alginate at a dosage of 10% by weight of the complex additive were used as stabilizer (example 2).

Analyzing the tabular data, it can be noted that the presence of a hydrophilic stabilizer in the complex additive allows, with a slight increase in the solution mobility, to significantly reduce water separation with an increase in air entrainment and a decrease in density.

Thus, the proposed complex additive to mortars provides long-lasting preservation of the mobility of the mortar and a stable level of air entrainment.

Table 1 Technological and strength characteristics of mortars with additives Indicators prototype by application Example 1 Example 2 Example 3 Example 4 Mobility, PC, cm right away 9.6 11.0 11.0 10.9 10.8 after 3 hours 4.7 8.2 8.5 8.9 9.0 after 6 hours 2,5 5.2 5.5 5.8 6.2 Air intake,% right away 31 24 24 23 23 after 3 hours fifteen 21 21 twenty 21 after 6 hours 12 16 17 17 eighteen Density, kg / m ³ right away 1755 1855 1860 1875 1870 after 3 hours 2030 1890 1890 1895 1885 after 6 hours 2150 1950 1930 1930 1920 Water separation,% 0.31 0.13 0.15 0.12 0.11 Compressive strength, MPa, at the age of 7 days 10.8 11.8 11.3 11.5 10.8 Compressive strength, MPa, at the age of 28 days 14.5 14.7 14.3 14.5 14.2

table 2 The effect of hydrophilic stabilizer Indicators without hydrophilic stabilizer with hydrophilic stabilizer example 1 example 2 Mobility, PC, cm right away 11.0 11.0 11,2 after 8 hours 4.6 5.9 6.3 Density, kg / m ³ right away 1855 1835 1830 after 8 hours 2010 1980 1910 Air intake,% right away 24 25 25 after 8 hours fourteen 17 eighteen Water separation,% 0.13 0.06 0.04

Claims (2)

1. A complex additive to mortars, including a plasticizer based on lignosulfonates and an air-entraining additive, characterized in that the composition of surfactants is used as an air-entraining additive,
in the following ratio, (wt.%): lignosulfonates - 80-95; the composition of surfactants is 5-20, and the composition of surfactants includes low hydrophilic surfactants with a hydrophilic-lipophilic balance value of 1 ... 3 and highly hydrophilic surfactants with a hydrophilic-lipophilic balance of 30 ... 40, in the following ratio , (wt.%):
low hydrophilic surfactants with a hydrophilic-lipophilic balance value of 1 ... 3 - 5-20;
highly hydrophilic surfactants with a hydrophilic-lipophilic balance value of 30 ... 40 - 80-95. 2. The complex additive according to claim 1, characterized in that it additionally contains a hydrophilic stabilizer from the group of plant, artificial or microbiological polysaccharides in an amount of 1-10% of the total mass of lignosulfonates and a composition of surfactants.