RU2373165C1 - Complex additive for concrete mix - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: complex additive contains product of alkylation of phenol production wastes on the basis of cumylphenol and dimers of α-methyl sterol with oxygen-containing organic substances, sodium sulfate and sodium formate at the following ratio of components, wt %: product of phenol production waste alkylation on the basis of cumylphenol and dimers of α-methyl sterol with bifunctional oxygen-containing organic substances - 70.0-80.0; sodium sulfate - 8.0-12.0; sodium formate -12.0-18.0.

EFFECT: improved strength of concrete with preservation of concrete mix mobility.

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Description

The invention relates to the field of building materials, in particular to the composition of the complex additives used in the production of concrete, concrete mixes and mortars.

A complex additive is known for a concrete mixture, including a mixture of sodium and triethanolamine salts of a sulfonated product of condensation of phenol-based waste products based on cumylphenol and α-methyl styrene dimers, respectively, in a ratio of 1: (0.1-1) by weight, technical lignosulfonates, a mixture of sodium and triethanolamine salts sulfonated condensation product of a heavy oil pyrolysis resin, respectively, in a ratio of 1: (0.1-1) by weight, a mixture of sodium sulfate and triethanolamine sulfate in the ratio of sodium and triethanolamine salts of 1: (0.1-1), by weight, mixture of polyoxypropylene ether n-butyl alcohol and polymethylsiloxane fluid in the ratio of (0.1-1): 1 by weight at the following content of the additive, wt.%:

a mixture of sodium and triethanolamine salts of a sulfonated product of condensation of phenol-based waste products based on cumylphenol and α-methyl styrene dimers 31.0-84.5 a mixture of sodium and triethanolamine salts of a sulfonated condensation product of a heavy oil pyrolysis resin 5.0-31.0 a mixture of sodium sulfate and triethanolamine sulfate 5.0-15.5 a mixture of n-butyl alcohol polyoxypropylene ether and polymethylsiloxane liquid 0.5-2.5 technical lignosulfonates 5.0-20.0

(RF patent No. 2088548, CL 04B 28/04. Publ. 08.27.1997).

A complex additive for concrete mix is also known, including the sodium salt of a sulfonated product of condensation of waste products of phenol based on cumylphenol and α-methyl styrene dimers with formaldehyde, sodium sulfate, a mixture of di- and triethanolamine salts of a sulfonated product of condensation of waste products of phenol production based on cumylphenol and α- dimers methyl styrene with formaldehyde in a mass ratio of 1: (0.3-1), respectively, a mixture of di- and triethanolamines in a mass ratio of 1: (0.3-1), respectively, and organic foam Tel the following component ratio, wt.%:

sodium salt of a sulfonated product of condensation of phenol-based waste products based on cumylphenol and dimers of α-methylstyrene with formaldehyde 30.0-74.5 sodium sulfate 5.0-15.0 a mixture of di- and triethanolamine salts of a sulfonated product of condensation of phenol-based waste products based on cumylphenol and α-methylstyrene dimers with formaldehyde in a weight ratio of 1: (0.3-1), respectively 15.0-37.0 a mixture of di- and triethanolamines in a mass ratio of 1: (0.3-1), respectively 5.0-15.0 organic defoamer 0.5-3.0

As an organic defoamer, the additive contains polyoxypropylene ether of N-butyl alcohol, or polymethylsiloxane liquid, or a mixture thereof in a mass ratio of 1: 1, respectively (RF patent No. 2078744, CL 04B 28/04. Publish. 05/10/1997).

However, concretes with these additives have low strength and mobility.

Closest to the offer is a complex additive for concrete mix, including the sodium salt of a sulfonated product of condensation of phenol production waste products based on cumyl phenol and α-methyl styrene dimers with formaldehyde, sodium sulfate and polyoxypropylene glycol ether of n-butyl alcohol or polymethylsiloxane liquid and the following technical lignosulfonates the ratio of components, wt.%:

sodium salt of a sulfonated product of condensation of phenol-based waste products based on cumylphenol and dimers of α-methylstyrene with formaldehyde 17.0-79.7 sodium sulfate 15.0-50.0 technical lignosulfonates 10.0-30.0 n-butyl alcohol polyoxypropylene glycol ether or polymethylsilixane liquid 0.3-3.0

(RF patent No. 2100305, CL 04B 28/04. Publish. 12/27/1997).

The disadvantages of the known complex additives are the relatively low strength of the resulting concrete and the relatively increased consumption of the additive.

The problem to which the invention is directed, is to increase the strength of concrete while maintaining the mobility of the concrete mixture and reduce the consumption of additives.

The problem is solved in that in a complex additive that includes the product of oligomerization of phenol-based waste products based on cumylphenol and dimers of α-methyl styrene, sodium sulfate, sodium formate is additionally introduced, and the product of phenol-based waste products alkylation based on cumylphenol and α-methylstyrene dimers with bifunctional oxygen-containing organic substances in the following ratio of components, wt.%:

product of alkylation of phenol production wastes based on cumylphenol and α-methylstyrene dimers with bifunctional oxygen-containing organic substances 70.0-80.0 sodium sulfate 8.0-12.0 sodium formate 12.0-18.0

The additional introduction of sodium formate provides the concrete mixture with accelerated curing times and an increase in the strength characteristics of concrete.

The choice of phenol-based waste product alkylation product based on cumylphenol and α-methylstyrene dimers as bifunctional oxygen-containing organic substances as the oligomerization product of phenol production waste products helps to obtain the necessary strength in the initial stages of hardening and increase the mobility of the concrete mixture.

A complex additive is obtained according to the following methodology: waste phenol production (TU 38-10286-75), containing, wt.%:

phenol 2.7-6.9 acetophenone 0.03-84 dimethylphenylcarbinol 0.14-3.3 α-methyl styrene 0.03-8.9 n-cumylphenol 26.6-50.0 α-methylstyrene dimers 18.4-43.4 pitch pitch 18.8-30.6 alkali 0.9-2.3

mixed with bifunctional oxygen-containing organic substances and sulfuric acid in a mass ratio of components: phenolic waste; bifunctional oxygen-containing organic substances; sulfuric acid 1 ÷ 0.8 ÷ 0.5. The resulting mixture was maintained at 80-95 ° C for 1-1.5 hours. Then the resulting mixture is sulfonated with sulfuric acid at 60-65 ° C with a mass ratio of the components of the reaction mass; sulfuric acid 1 ÷ 0.7. The resulting product is neutralized with sodium hydroxide to pH 7 and mixed with sodium sulfate and sodium formate.

The technical result consists in improving the construction and technical parameters of concrete, concrete mix and mortar, namely, increasing the strength of concrete while maintaining the mobility of the concrete mixture.

The concrete mixture with the proposed complex additive is prepared according to the following method: cement and aggregates are introduced into the mixer and mixed thoroughly. Then, a complex additive with mixing water is added to the resulting mixture and the mixture is additionally mixed until a homogeneous mass is obtained, from which concrete products are prepared according to the standard method for manufacturing concrete samples of laboratory type. The compressive strength of concrete is determined according to GOST 10180-90, the mobility of the concrete mix according to GOST 10181.1-81.

The following building materials were used in the work: cement (C) M-400, crushed stone (Щ) fractions of 5-20 mm, sand (П) with Мкр = 2.1 with a ratio of components C ÷ Щ ÷ П = 1 ÷ 2.8 ÷ 1.3 at H / C = 0.44.

Examples of specific concrete mixes.

Example 1 (control composition).

A concrete mixture of the specified composition was prepared without additives according to standard methods.

Examples 2-3 (prototype).

A complex additive is introduced into the concrete mixture of the specified composition in an amount of 0.6 and 0.1% by weight of cement.

Examples 4-5 (proposed).

A complex additive is introduced into the concrete mixture of the specified composition in the following ratio of components: the product of alkylation of phenol production waste products based on cumylphenol and α-methyl styrene dimers with bifunctional oxygen-containing organic substances; sodium sulfate; sodium formate, respectively, equal to 72.6 ÷ 10.4 ÷ 13.9 in the amount of 0.08 and 0.1% by weight of cement.

Examples 6-7 (outside).

A complex additive is introduced into the concrete mixture of the specified composition in the following ratio of components: product of alkylation of phenol-based waste products based on cumylphenol and α-methyl styrene dimers with bifunctional oxygen-containing organic substances (FASM); sodium sulfate; sodium formate, respectively, equal to 65.0 ÷ 6.0 ÷ 10.0 and 85.0 ÷ 15.0 ÷ 19.0 in the amount of 0.5% by weight of cement.

The compositions of the complex additives and the results of comparative tests are shown in the table.

The table shows that the inventive complex additive increases the strength of concrete and the mobility of the concrete mixture at reduced costs, which are the most optimal (threshold efficiency of the additive).

№№ Concrete Compositions The composition of the complex additives,% Additive consumption,% by weight of cement Cone draft (OK), cm The compressive strength of concrete after 28 days, MPa FASM Sodium sulfate Sodium formate one. Control - 4.0 30,2 2. Prototype 0.6 24.0 47.8 3. - 0.1 23.0 46.0 four. Proposed 72.6 10,4 13.9 0.08 24.5 49.2 5. - 72.6 10,4 13.9 0.1 24.8 49.8 6. Outside 65.0 6.0 10.0 0.5 23.6 46.1 7. - 85.0 15.0 19.0 0.5 22.0 44.3

Claims (1)

A complex additive for concrete mix, including the product of oligomerization of phenol production waste products based on cumylphenol and α-methylstyrene dimers, sodium sulfate, characterized in that sodium formate is additionally introduced into it, and the product of phenol production waste product alkylation on based on cumylphenol and α-methylstyrene dimers with bifunctional oxygen-containing organic substances in the following ratio of components, wt.%:
production waste alkylation product phenol based on cumylphenol and α- dimers methylstyrene with bifunctional oxygenated organic substances 70.0-80.0 sodium sulfate 8.0-12.0 sodium formate 12.0-18.0