RU2100305C1 - Complex addition for concrete mixture - Google Patents

Abstract

FIELD: building materials. SUBSTANCE: complex addition has the following components, wt.-%: sodium salt of sulfonated product of waste condensation product from phenol production with formaldehyde, 17.0-79.7; sodium sulfate, 10-30; lignosulfonates, 10-30; polyether or polyorganosiloxane, 0.3-3.0. Concrete mixture obtained by addition of complex addition at amount 0.1-5.0% has cone setting 4 cm, mechanical strength of concrete is 25.2 MPa, hardiness is 800 cycles. EFFECT: improved quality and property. 2 tbl

Description

 The invention relates to the field of building materials, in particular, to complex additives for concrete mix used for the manufacture of concrete and reinforced concrete products.

 A well-known complex additive [1] including the sodium salt of a sulfonated product of condensation of phenol-based waste products based on cumylphenol and dimers of methyl styrene with formaldehyde and sodium sulfate at a mass ratio of 1: 1.13, 1: 1.85.

 A disadvantage of the known solution is the relatively low strength of concrete.

 Closest to the technical nature of the claimed is a complex additive in concrete mixture [2] including, by weight.

Sodium Sulfonated Phenol Formaldehyde Waste Condensation Product 10.0-79.99
Sodium Sulfate 20.0 85.0
Polyoxypropylene glycol ether of n-butyl alcohol or polyorganosiloxane 0.01-5.0
A disadvantage of the known solution is the low strength of the resulting concrete.

 The aim of the invention is to increase strength while maintaining the frost resistance of concrete and the mobility of concrete.

 This is achieved, according to the invention, in that the complex additive for the concrete mixture, including the sodium salt of a sulfonated product of condensation of phenol-based waste products based on cumylphenol and α-methylstyrene dimers with formaldehyde, sodium sulfate, n-butyl alcohol polyoxypropylene glycol ether or polymethylsiloxane liquid additionally contains lignosulfonate technical in the following ratio of components, wt.

Sodium salt of sulfonated product of condensation of phenol production waste products based on cumylphenol and dimers of a-methyl styrene with formaldehyde - 17.0-79.7
Sodium Sulfate 10.0-50.0
Polyoxypropylene glycol ether of n-butyl alcohol or polymethylsiloxane liquid 0.3-3.0
Technical lignosulfonates 10.0-30.0
The use of lignosulfonates of an alkali or alkaline earth metal (LST) and polyoxypropylene glycol ether of n-butyl alcohol (POEF) or polyorganosiloxane 131-85 (TU-6-02-584-75) is envisaged.

 The proposed complex additive having good solubility in water is prepared in the form of an aqueous solution, paste or in dry form, and is introduced into the concrete and mortar mixture with mixing water or as a binder obtained by mixing cement, fine and coarse aggregate and additive in dry form.

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

Phenol 2.7-6.9
Acetophenone 0.03-84
Dimethylphenylcarbinol 0.14-3.3
a-methylstyrene 0.03-8.9
n-cumylphenol 26.6-50.0
Methyl styrene dimers 18.4-43.4
Resin pitch 18.8-30.6
Alkali 0.9-2.3
sulfonate with sulfuric acid at 120-155 ^o C, and then the resulting product is condensed with formaldehyde at 80-100 ^o C with a mass ratio of components phenolic waste: sulfuric acid: formaldehyde 1,1,0-5: 0,0,0-0-0, 08. The resulting product was neutralized with sodium hydroxide to a pH of 8-10 and lignosulfonates (LST) and polyoxypropylene glycol ether (POEF) were added. Technical lignosulfonates are technical lignosulfonates (OST 13-183-83) and propynyl B-400 (TU 6-144-300-80) or polymethylsiloxane liquid 131-85 as polyoxypropylene glycol ether of n-butyl alcohol.

 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 dry mixture with the mixer working, and the mixture is further mixed until a homogeneous mass is obtained from which concrete products are prepared according to the standard method of manufacturing concrete samples of laboratory type. The compressive strength of concrete is determined according to GOST 10180-78, the mobility of the concrete mix according to GOST 10181.1-81, frost resistance according to GOST 10060-76.

 In the work, the following building materials were used: cement M-400, crushed stone of a fraction of 5-20 mm, sand with Mkr = 2.1 with the following ratio of components C: Sh: P = 1: 2.8: 1.3 at W / C = 0.44.

Heat and moisture treatment of concrete samples is carried out according to the regime of 2 + 3 + 6 + 4 and at 80 ^o C.

 Examples of concrete preparation of concrete mix.

 Example 1 (control composition).

 A concrete mixture of the specified composition was prepared without additives according to the above procedure.

 Examples 2-5 (prototype).

 A complex additive based on the sodium salt of a sulfonated product of the condensation of waste products of phenol with formaldehyde, sodium sulfate and polyoxypropylene glycol ether of n-butyl alcohol or polymethylsiloxane liquid (POEF or SKL) is introduced into the concrete mixture of the specified composition.

 Examples 6 and 7 (proposed).

 A complex admixture is introduced into the concrete mixture of the specified composition in the following weight ratio of the components of SOPF: sodium sulfate: lignosulfonates: POEF equal to 17.0: 50.0, 30.0: 3.0 and 48.3: 30.0: 20.0 : 1.7 in the amount of 5.0 and 2.5% by weight of cement, respectively.

 Examples 8.9 (proposed).

 A complex additive is introduced into the concrete mixture of the specified composition, as in examples 6-7, but with a mass ratio of components of SOPF: CH: LST: POEF equal to 48.3: 30.0: 20.0: 17.0 and 79.7 : 10.0: 10.0: 0.3 in the amount of 0.6 and 0.1% by weight of cement, respectively.

 Examples 10 and 11 (outside).

 A complex admixture is introduced into the concrete mixture of the specified composition as in examples 6 and 7, but with a mass ratio of the components of SOPF: CH: LST: POEF equal to 16.7: 50.1: 30.1: 3.1 and 80.0 : 9.9: 9.9: 0.2 in the amount of 0.6 and 0.1% by weight of cement.

 The compositions of the complex additives and the results of comparative tests are given in tables 1 and 2.

Claims (1)

 Complex additive for concrete mix, including sodium salt of sulfonated phenol production waste condensation product based on cumyl phenol and α-methyl styrene dimers with formaldehyde, sodium sulfate and n-butyl alcohol polyoxypropylene glycol ether or polymethylsiloxane liquid, characterized in that, in order to increase strength while maintaining the frost resistance of concrete and the mobility of the concrete mixture, it additionally contains technical lignosulfonates in the following ratio of components, wt. Sodium salt of the sulfonated product of the condensation of phenol-based waste products based on cumylphenol and α-methyl styrene dimers with formaldehyde 17.0 79.7
Sodium Sulfate 10.0 50.0
Technical lignosulfonates 10.0 30.0
Polyoxypropylene glycol ether of n-butyl alcohol or polymethylsiloxane liquid 0.3 3.0

Images