RU2049081C1 - Expanding addition to cement - Google Patents

Abstract

FIELD: building materials. SUBSTANCE: expanding addition has, wt.-% alumina slag 4-6; gypsum dihydrate 22-24; blast furnace granulated slag 60-69, and SiO₂-base waste of wet iron ore concentration 5-10. Cement density with proposed addition is up to 2400 kg/m³, compression strength is 41.75 MPa; bending tensile strength is up to 6.75 MPa, and self-tension is up to 5 MPa. EFFECT: enhanced quality of addition. 2 tbl

Description

 The invention relates to the production of building materials, namely the production of tensile, expanding and non-shrinking cements used in the construction of concrete structures operated at elevated temperatures, such as tanks, storage facilities, etc.

Known compositions of tensile cements, in which as an expanding component contains alumina slag and gypsum [1]
Closest to the proposed technical essence and the achieved result is an expanding additive to cement, including alumina slag, gypsum, lime and nitrilotrimethylphosphonic acid [2]
The disadvantages of the known solutions are the complex technology for the preparation of binders, requiring joint grinding of the components or their firing, difficulties in transportation and storage of binders, as well as the insufficient durability of concrete based on them when operating them at elevated temperatures.

The purpose of the invention the preparation of the expanding additive to the cement, which provides the desired properties of concrete and to improve the accuracy in the temperature range up to 100 ^{° C} while simplifying preparation technology.

For this, an expanding additive to cement, including alumina slag and gypsum, additionally contains blast furnace granulated slag and a waste from the production of wet enrichment of iron ore based on SiO ₂ in the following ratio of components, wt.

Granulated blast furnace slag 60-69 Alumina slag 4-6 Gypsum 22-24
Production waste
wet enrichment
iron ore based on SiO ₂ 5-10
Granulated blast furnace slag (GOST 3476-74) is a waste of the metallurgical industry, a by-product resulting from the production of pig iron.

The chemical composition of blast furnace granulated slag, wt. SiO ₂ 37.80; Al ₂ O ₃ 12.71; Fe ₂ O ₃ 0.40; CaO 41.92; MgO 4.56; TiO ₂ 0.38; S 0.45; MnO 0.37.

 The mineralogical composition of blast furnace granulated slag is represented by dicalcium silicate, gelenite, diopside, etc.

Alumina slag (TU 14-11-137-81) is a high alumina blast furnace slag consisting of single-calcium and dicalcium aluminate, mayenite and gelenite and has the following chemical composition of basic oxides, wt. SiO ₂ 9.80; Al ₂ O ₃ 39.50; CaO 39.52; SO ₃ 2,40.

Gypsum stone is a rock of sedimentary origin, consisting mainly of the mineral CaSO ₄ ˙ 2H ₂ O. The following minerals are impurities: dolomite, iron hydroxide anhydride, sulfur, quartzite, etc.

The sand of the wet iron ore beneficiation factory is a production waste consisting of quartz, calcite, feldspar, magnesite mica, hornblende and other minerals and having the following chemical composition, wt. p.p. 4.14; SiO ₂ 56.3; Al ₂ O ₃ 14.9; FeO 5.82; Fe ₂ O ₃ 12.5; MnO 0.49; CaO 20.64; MgO 3.7; SO ₃ 0.58.

 Thus, almost all the constituents of an expanding supplement are waste products.

All of the above materials are dried to a residual moisture content of 1-2%, dosed and ground in a ball mill to a specific surface of 3500 ± 200 cm ² / g. Examples of ratios of the components of the proposed additives are given in table. 1.

 The proposed expanding additive in an amount of 20% is mixed with Portland cement M400. (Portland cement alite, medium aluminate).

Prototypes for determining hydrothermal resistance are made simultaneously with samples for determining the strength characteristics. Samples were tested after 30 days of water hardening. By the time of testing, part of the samples are placed in a chamber with automatic temperature control. The samples are heated to 70 and 90 ^° C at a speed of 20 ^° C / h. After heating, the samples are kept at a constant temperature for 7 days. Then the samples are heated in a cycle: heating, isothermal exposure for 8 hours, cooling for 7 hours. After these thermal tests for 30 days, the samples are cooled to room temperature and tested. The test results of the samples are presented in table. 2.

Claims (1)

EXPANDING CEMENT ADDITIVE, including alumina slag and two-water gypsum, characterized in that it additionally contains blast furnace granulated slag and a waste from the production of wet enrichment of iron ore based on SiO ₂ in the following ratio of components, wt. Alumina slag 4 6
Two-water gypsum 22 24
Granulated blast furnace slag 60 69
Waste from the production of wet enrichment of iron ore based on SiO ₂ 5 10

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