RU2540706C1 - Binding agent - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: binding agent contains components with the following ratio, wt %: phosphogypsum dehydrate - 77.0-87.5; silica-containing component of technogenic origin - finely disperse broken ceramic bricks (FDCB) or haydite dust from cyclones (HD) - 10.0-20.0; zinc stearate - 2.5-3.0.

EFFECT: increase strength and water resistance of the material.

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Description

The invention relates to the building materials industry, and in particular to the compositions of binders used for the manufacture of building materials and products.

Known building mixture based on phosphogypsum dihydrate and Portland cement, containing as an additive high siliceous waste production of ferrosilicon in the following ratio, wt.%:

Phosphogypsum dihydrate 60-80 Portland cement 15-25 Indicated production waste 5-15 Water (over 100%) 10-12

Moreover, the material obtained on the basis of this mixture by pressing, at a pressure of 80 MPa after 28 days of hardening under natural conditions, has a compressive strength of 15.3 to 22.3 MPa and a softening factor of 0.6 to 0.71 (patent RF №2074843, class C04B 28/14, C04B 111: 20, published on March 10, 1997).

The disadvantages of the known building mixture include low water resistance of the material (Cr = 0.6-0.71, which belongs to the group of non-waterproof building materials), high energy costs for molding products (pressing pressure 80 MPa), which limits the dimensions of the molded products and, accordingly, narrows the range construction products made on the basis of this mixture.

Closest to the invention in its technical essence is a binder, including components in the following ratio, wt.%: Bauxite sludge, heat treated at a temperature of 350-450 ° C, 84-87; phosphogypsum, heat-treated at a temperature of 150 ° C, 7-12; MgCl ₂ 4-6. The binder strength is 15.0 MPa, frost resistance is 100 cycles (RF patent No. 20186867, class C04B 7/00. Publ. 30.07.1994).

However, the known binder has a low compressive strength, as well as a high temperature processing phosphogypsum.

The problem to which the claimed invention is directed, is to increase the tensile strength in compression, the water resistance of the material.

The technical result consists in obtaining a binder with improved performance.

The problem is solved in that the composition for the manufacture of a binder, including phosphogypsum dihydrate, additionally introduced zinc stearate, a silica component of technogenic origin - finely dispersed ceramic brick bricks (MBCC) or expanded clay dust from cyclones (KP), in the following ratio of components, wt.% :

Phosphogypsum dihydrate 77.0-87.5 Zinc stearate 2.5-3.0 Silica-containing component - finely divided ceramic brick or expanded clay dust from cyclones 10.0-20.0

The optimal content in the composition of the silica-containing component of technogenic origin is 10.0-20.0 (wt.%) And zinc stearate 2.5-3.0 (wt.%), Since the decrease in the silica-containing component is less than 10.0 (wt.%) does not lead to the manifestation of the binding properties of the composition, and exceeding 20 (wt.%) leads to a decrease in the binder grade. The introduction of zinc stearate of less than 2.5 (wt.%) Does not allow to increase the coefficient of water resistance to 0.8, and with the introduction of more than 3.0 (wt.%) Leads to a rise in the cost of the binder.

As a silica-containing component of technogenic origin, finely dispersed battle of ceramic bricks, expanded clay dust from cyclones in the form of finely dispersed powder with a specific surface S _beats = 2000-2500 cm ² / g were used, the chemical composition is presented in table 1.

Table 1 Silica-containing component Chemical composition, wt.% SiO ₂ Al ₂ O ₃ Fe ₂ O ₃ Cao MgO SO ₃ p.p.p. MBKK CJSC Construction Materials. Engels brick factory " 58.75-69.64 5.99-7.13 6.87-9.15 3.12-4.98 1.12-1.18 0.08-0.09 0.65 MBKK LLC "Ceramic brick factory" 63.57-71.22 6.43-7.44 5.68-8.97 3.08-4.67 1.08-1.15 0.07-0.08 0.73 Expanded clay dust of LLC Kronverk 56.38-59.25 18.32-19.85 7.0-9.2 1.38-3.1 2.35-3.10 0.93-1.4 1.05 Expanded clay dust factory efficiency LLC Profspetsstroy 60.53-62.74 15.28-16.41 7.04-7.63 2.59-4.58 2.35-2.64 0.07-0.36 1.21

The main positive effect of introducing a silica-containing component of technogenic origin into the binder is achieved due to its increased adsorption ability. As a result of the joint grinding (mechanical activation) of phosphogypsum dihydrate and a silica-containing component, the physicochemical adsorption of passivating films from the surface of particles of phosphogypsum dihydrate occurs due to the highly developed specific surface and porosity of the silica-containing component (MBCC - S _beats = 75-81 m ² / g, effective pore diameter 36Å; expanded clay dust S _beats = 87-99 m ² / g, effective pore diameter 41Å).

The increase in the strength of the binder is explained by the steric effect, when a certain volume of filler is involved in the formation of the frame in combination with particles of phosphogypsum dihydrate. Ultrafine particles of a silica-containing component of technogenic origin as a result of joint mechanical activation with phosphogypsum dihydrate act as a skeleton in the hardened material, which allows to increase the strength of the binder to 16.0-18.0 MPa.

At the same time, zinc stearate (stearic acid zinc [CH ₃ (CH ₂ ) ₁₆ COO] ₂ Zn), which is a water-repellent additive and allows increasing the water resistance coefficient by 20%, up to K _p = 0.81, was chosen as an additive that increases the water resistance of the binder. -0.85. The effective effect of zinc stearate on increasing the coefficient of water resistance is explained by blocking the surface of the micropores of the hardened binder, which is caused by a decrease in water absorption up to 6% (mass.). The increase of these properties allows you to expand the product range and scope of the proposed binder from the manufacture of materials for finishing work indoors to exterior finishing materials, as well as the manufacture of wall materials based on the proposed binder.

The following starting materials were used to formulate the complex binder compositions: phosphogypsum dihydrate with Balakovo Mineral Fertilizers LLC (the chemical composition is given in Table 2); zinc stearate (zinc stearic acid [CH ₃ (CH ₂ ) ₁₆ COO] ₂ Zn - TU 6-09-17-316-96); silica-containing component of technogenic origin: MBKK CJSC Construction Materials. Engels Brick Plant, Engels, Saratov Region, or MBKK Ceramic Brick Plant LLC, Saratov, or expanded clay dust from cyclones of Kronverk LLC, Saratov, or expanded clay dust from cyclones, efficiency plant of OOO Profspetsstroy, Engels, Saratov Region ( chemical composition is given in table.2).

table 2 Cao SO ₄ P ₂ O ₅ SiO ₂ Fe ₂ O ₃ F pH 27.3-31.02 54.15-65.40 0.98-1.19 0.55-0.68 0.35-0.44 0.18-1.7 4,5-5,8

The preparation of a binder is carried out in the following sequence: unbaked phosphogypsum dihydrate with a moisture content of not more than 16-18% with a specific surface area of particles S _beats = 1600-1800 cm ² / g in an amount of 77.0-87.5% (mass.) Of the total amount ( for example, 85.3 s S _beats = 1700 cm ² / g for composition No. 8 of Table 3) and a silica-containing component of technogenic origin with a specific particle surface S _beats = 2000-2500 cm ² / g in an amount of 10-20% (mass.) the total amount (for example 12.0 with S _beats = 2200 cm ² / g for composition No. 8 of table 3) is placed in a ball mill, where they produce a joint grinding (fur inactivation) of the feed mixture to a specific surface area of particles S _beats = 3500-4200 cm ² / g The resulting mixture is loaded into a thermal unit, in which the treatment is carried out at 150 ° C for 2 hours (low-temperature firing). The resulting binder is loaded into the mixer, where subsequently zinc stearate (zinc stearic acid) is fed in an amount of 2.5-3% (mass.) Of the total binder (for example, 2.7% for composition No. 8 of table 3) and these components are mixed for 2-2.5 min at a rotational speed of the mixing organ of the mixer 180-200 rpm (for composition No. 3 of the table 3-190 rpm). Then the resulting finished binder is packaged in a sealed container.

Table 3 shows the specific composition of the proposed binder, and in table 4 - physico-mechanical characteristics of the claimed binder.

Thus, the binder made from the proposed components has a higher compressive strength and softening factor (water resistance) compared to the known binder (prototype).

Claims (3)

1. An astringent, including phosphogypsum dihydrate, characterized in that it additionally contains a silica-containing component of technogenic origin, as well as a hydrophobizing additive - zinc stearate (zinc stearic acid [CH ₃ (CH ₂ ) ₁₆ COO] ₂ Zn) in the following ratio, wt.% :
Phosphogypsum dihydrate 77.0-87.5 Zinc stearate 2.5-3.0 Silica-containing component 10.0-20.0 2. The binder according to claim 1, characterized in that, as a silica-containing component of technogenic origin, it contains a finely dispersed battle of ceramic brick. 3. The binder according to claim 1, characterized in that as a silica-containing component of technogenic origin contains expanded clay dust from cyclones.