RU2038340C1 - Initial mixture for heavy concrete preparation, initial mixture for porous concrete preparation, initial mixture for foam concrete preparation, addition to concrete mixture - Google Patents

Abstract

FIELD: construction. SUBSTANCE: initial mixture for preparation of heavy concrete has binder, small and big size filler, addition and water also as plasticizing and water-reducing addition uses waste waters of yeast production based on sulfates and chlorides of alkaline metals with following ratio of components, mass binder 18.3 21.4; small size filler 26.5 27.7; big size filler 44.4 48.8; the addition 0.2 0.5; water the rest. Besides, initial mixture for porous concrete preparation has binder, small and big size filler, pores forming addition and water. The mixture as pores forming addition uses concentrated waste waters of yeast production, based on sulfates and chlorides of alkaline metals in following ratio of components, mass binder 11.3 11.6; small size filler 24.5 27.9; big size filler 51.2 54.0; the addition 0.1 0.5; water the rest. Besides, initial mixture for foam concrete preparation has mineral binder, small size filler, foam forming addition and water as foam forming addition uses concentrated waste waters of yeast production, based on sulfates and chlorides of alkaline metals and additionally has ground quick lime and plasticizing addition in following ratio of components, mass mineral binder 45.4 47.9; small size filler 35.0 36.5; the addition 3.5 8.0; ground quick lime 0.3 0.4; plasticizing addition 0.3 0.4; water the rest. Besides, addition to concrete mixture based on waste waters of yeast production has following components, mass formed in process of yeast production alkaline metals sulfates 7.5 12.5; alkaline metals chlorides 1.5 3.5; ammonium nitrogen 0.02 0.04; organic nitrogen 1.5 4.0; sugar 3.0 5.0; flying fatty acids 3.5 - 5.5, similar materials present in suspended state and formed in process of production 1.8 -3.8; solid sediment of similar materials, formed in process of production 70.0 73.0; other ingredients the rest. Concrete mixtures were prepared with different dosages of the addition to create plasticizing and water-reducing effect, air attracting effect and foam-forming effect. In parallel concrete mixtures for production of heavy concrete, light porous concrete and foam concrete were prepared by stirring components. Density of heavy concrete was 2200 2400 kg/m³, its strength 50.0 69 MPa; density of light porous concrete was 1430 1470 kg/m³, its strength 5.6 7.9 MPa, porosity effect 10.7 11.2 density of foam concrete was 500 750 kg/m³, its strength 0.5 1.2 MPa, porosity effect 22 25 EFFECT: heavy, porous and foam concretes are used in construction. 5 cl, 2 tbl

Description

 The invention relates to raw mixes for concrete and mortar of various types, as well as to chemical additives that have a plasticizing, air-entraining or foaming effect on them, used in construction.

Known raw mixes for the preparation of heavy, light porous or foam concrete, including, in addition to the main components, the corresponding plasticizing, air-entraining or foaming organic additives obtained from by-products or by-products of forest chemistry, chemical and petrochemical industries, agricultural chemistry, etc. [1,2,3 ]
Also known is the additive in the concrete mixture based on waste yeast from molasses [4]
The disadvantage of this additive is the low strength of concrete, especially in the early stages, the absence or insufficient air entrainment in the concrete mixture in another case.

 The objective of the invention is to obtain heavy, light porous or foam concrete from raw materials mixtures, including, in addition to cementing, fine and coarse aggregates and mixing water, an additive representing yeast wastewater to increase the strength of heavy concrete by reducing the water demand of the concrete mixture, increased air entrainment or a foaming effect in light porous or foam concrete using such an additive.

For this, the following compositions of raw mixes are offered:
The raw material mixture for the preparation of heavy concrete, including binder, fine and coarse aggregate, additive and water, contains yeast wastewater based on alkali metal sulfates and chlorides in the following ratio, wt.%, As a plasticizing and water-reducing additive. Binder 18.3-21.4 Fine aggregate 26.5-27.7 Large aggregate 44.4-48.8 Indicated additive 0.2-0.3 Water Else
The raw material mixture for the preparation of porous concrete, including binder, fine and coarse aggregate, a porous additive and water, contains as a porous additive concentrated yeast wastewater based on sulphates and chlorides of alkali metals in the following ratio, wt. Binder 11.3-11.6 Fine aggregate 24.5-27.9 Large aggregate 51.2-54.0 Indicated additive 0.1-0.5 Water Else
The raw material mixture for the preparation of foam concrete, including a mineral binder, a fine aggregate, a foaming additive and water, contains as a foaming additive concentrated yeast wastewater based on sulphates and chlorides of alkali metals and additionally ground quicklime and a plasticizing additive in the following ratio of components, wt. Mineral binder 45.4-47.9 Fine aggregate 35.9-36.5 Indicated additive 3.5-8.0 Ground quicklime 0.03-0.4 Plasticizing additive 0.3-0.4 Water Else
The additive in the concrete mixture based on wastewater from yeast production contains the following components, wt. Alkali metal sulfates 7.5-12.5 Alkali metal chlorides 1.5-3.5 Ammonium nitrogen 0.02-0.04 Organic nitrogen 1.8-3.8 Sugar 3.1-5.1 Volatile fatty acids 3 , 5-5.5 The same substances in suspension, formed during the production process 1.8-3.8 Dense residue of the same substances formed during the production process 70.0-73.0 Other impurities rest
The compositions of the raw mixes are given in table. 1.

 Concrete mixtures were prepared at various dosages of this additive to create a plasticizing and water-reducing effect (formulations 1–9), an air-entraining effect (formulations 8–10) and a foaming effect (formulations 12–15). At the same time, concrete mixtures were prepared to obtain heavy, light porous and foam concrete (compositions 1,2,6,7,11 and 12, respectively), with C-3 superplasticizer, technical lignosulfonate (LST) for heavy concrete, evaporated after yeast, being used as prototype additives bard (UPB) and saponified wood resin (SDO) for lightweight porous concrete and polyhydrosiloxane GKZH-94 (136-41) and GKZh-94M in foam concrete (Instructions for using post-yeast bards as an additive in concrete, RNS 279-77, Unified catalog sheets. Chemicals s additive for concrete and mortar. Vol. 1 Additives regulators rheological properties of concrete and mortar mixtures. M. USSR State Building, VNIIS NIIZhB, 1987).

The density of the proposed non-thickened additives was 1.005-1.01 g / cm ³ , pH 5.5-6.5, the nitrogen content in terms of the dry matter of the additive 400 mg / l, the optimal dosage from the initial concentrations of existing effluents to 10% diluted aqueous solutions thickened to a multiplicity of 5-10 wastewater.

Portland cement of the Voskresensky cement plant with an activity of 42.6 MPa was used as a binder. A fine aggregate was quartz sand M _k = 1.8, seeded. Limestone crushed stone fractions of 5-10 mm (40%) and 10-20 mm (60%), light porous concrete slag pumice stone gravel of similar fractions with a bulk density of 700-750 kg / m ³ served as a large aggregate for the preparation of heavy concrete. Cherepovets Steel Mill. To stabilize the foam in the production of foam concrete, ground calcium hydroxide CaO, ground to a specific surface of 2000 cm ² / g, was used.

Cubes with an edge of 10 cm for heavy and 15 cm for light porous and foam concrete were formed from concrete mixtures. All samples were hardened at a temperature of 20 ° ^C and 95% relative humidity
The samples were tested for compression, respectively, GOST 10180-78.

 The test results of concrete samples are given in table. 2.

 From the table. 1 and 2 it is seen that the use of yeast wastewater of various concentrations in concrete allows to obtain the best technical effect: plasticizing and water-reducing in heavy concrete, air entrainment in light porous and foaming in foam concrete in comparison with a smaller effect when using known plasticizing (C-3 and LST), air-entraining (UPB and SDO) or foaming (GKZH-94 -136-41 and GKZH-94M-136-157M) additives.

Claims (1)

 1. The raw material mixture for the preparation of heavy concrete, including binder, fine and coarse aggregates, additive and water, characterized in that as an additive it contains plasticizing and water-reducing additives yeast wastewater based on alkali metal sulfates and chlorides in the following ratio of components, wt. Binder 18.3 21.4
Fine aggregate 26.5 27.7
Coarse aggregate 44.4 48.8
Specified additive 0.2 0.5
Water Else
2. The raw material mixture for the preparation of porous concrete, including a binder, fine and coarse aggregate, a porous additive and water, characterized in that as a porous additive it contains condensed yeast wastewater based on alkali metal sulfates and chlorides in the following ratio of components, wt . Binder 11.3 11.6
Fine aggregate 24.5 27.9
Coarse aggregate 51.2 54.0
Specified additive 0.1 0.5
Water Else
3. The raw material mixture for the preparation of foam concrete, including a mineral binder, a fine aggregate, a foaming additive and water, characterized in that as a foaming additive it contains condensed yeast wastewater based on alkali metal sulfates and chlorides and additionally ground quicklime and a plasticizing additive in the following ratio of components, wt. Mineral binder 45.4 47.9
Fine aggregate 35.9 36.5
Specified Additive 3.5 8.0
Ground quicklime 0.3 0.4
Plasticizing additive 0.3 0.4
Water Else
4. The additive in the concrete mixture based on wastewater of yeast production, including sulfates and chlorides of alkali metals, characterized in that it contains the following components, wt. Formed during yeast production
alkali metal sulfates 7.5 12.5
Alkali metal chlorides 1.5 3.5
Ammonium nitrogen 0.02 0.04
Organic nitrogen 1.5 4.0
Sugar 3.0 5.0
Volatile fatty acids 3.5 5.5
The same substances present in suspension and formed during production 70 73
Other impurities

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