SU1479432A1 - Binder composition - Google Patents

Abstract

The invention relates to the building materials industry and can be used for the production of slag cement and building materials based on them. The use of the proposed technical solution makes it possible to increase the durability in the ghost. The mortar contains, in wt.%: Blast-furnace granulated slag 66-85, gypsum 1-5, the rest of the production of low-carbon ferrochrome. Durability in the shearing 25,9-27,4 MPa. 1 tab.

Description

one

The invention relates to the building materials industry and can be used for the production of slag cements, mortars, etc.

The aim of the invention is to increase the strength in the grip.

The slag, in which the slag from the production of carbon-carbon ferrochrome is used as a highly basic component, is not destroyed by water storage due to the absence of iron and manganese sulphides; due to the low content of iron oxides, a high whiteness is observed

In the composition containing blast-furnace granulated slag, slag from the production of low-carbon ferrohome and gypsum, there is a mutual activation of highly basic and acidic slags. The chemical composition of the slags of the production of low-carbon broterchrome, wt.%: CaO 47-55; SiC) 2 24-29; MgO 6-12; Ali03 4-7; FeO 0.5-2.0;

 rest. The mineralogical composition is mainly represented by f, periclae and magnesian spinel.

As a result of hydrolysis of r contained in ferrochromic slags in a liquid Laz, the content of ions increases, due to which the hydrated slag glass is hydrated. When this occurs, calcium hydroxide is bound, which, in turn, causes additional decomposition of T C-jS.

The increased activity of the highly basic constituent is confirmed by the fact that the strength characteristics vary slightly in a wide dosage range of ferrochrome slag, whereas in the form of self-supporting slag this slag practically does not harden. In addition, in the proposed composition the periclac hydration present in ferrochrome slags does not causes destructive phenomena due to the large number of 6pvcnTa germs,

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formed by hydration of magnesia granulated blast furnace slag.

The preparation process for the binder consists in the dosage and co-grinding of the components or in the mixing of the final powdered products.

It can be used in the manufacture of stencil concrete stones, mortars, etc.

Example. To prepare the binder, domain granulated slag containing, in wt.%, Was taken: SiO 40.6; AC 03 Yu, 9; MgO 10.2; Mp 0, "5 FeO 0,2; CaO the rest, with a basicity modulus of 0.89, an activity modulus of 0.27, a quality factor of 1.38, a slag produced from carbon low-carbon ferrochrome containing, in wt.%: SiO 25.4; A1.03 4.6; MgO 11.6; 1.2; CaO the rest, natural gypsum, containing 87% CaSO 2H20.

Tspak and gypsum were milled in a ball mill to a residual of 9% on sieve 008. From milled products

Compositions were prepared in a binder with various contents of blast-furnace and ferrochromic slags and gypsum. Then the resulting compounds were tested in solution with normal Volsky sand (1: 3). Samples were stored for testing for 28 days in water in a bath with a hydraulic shutter.

The compositions and properties of granulated slabs and ferrochromic slags in the domain are shown in the table.

Claims of the invention, including ferrochromic slag and gypsum, characterized in that, in order to increase strength, it additionally contains domain granulated slag in the following ratio, wt.%: Domain granulated slag 66-85 Gypsum 1-5 G1pak of low carbon ferrochrome production

Claims (1)

claims Binder, including ferrochrome slag and gypsum, characterized in that, in order to increase strength, it additionally contains blast furnace granulated slag in the following 2Q ratio of components, wt.%: Granulated blast furnace slag Gypsum Production spac 25 low-carbon ferrochrome 66-85 1-5 Rest Blast pellet, wt.% Ferrochrome slag, May. % ____________ Natural gypsum, wt.% Strength of reference materials, MPa, manufactured Immediately after preparation of the binder After 1 month of storage of the binder in the laboratory Bend Compression Bending | Compression 85 10 5 8.1 26.9 8.0 27.3 66 19 5 7.2 26.0 6.9 25.9 77 20 3 6.5 25,2 7.4 26.7 70 25 5 8.4 28.3 8.5 27.4 74 25 1 5.5 20.3 6.1 21.5 Prototype 3.2 8.7 - 5.8