RU2081076C1 - Binder - Google Patents

Abstract

FIELD: building materials production. SUBSTANCE: proposed binder comprises, mas.%: semihydrous gypsum, 78.4-81.6; microsilica, 10-12; 8-9 calcium oxide (lime), 8-9; superpeptizing agent, 0.4-0.6. EFFECT: increased water resistance of the material, decreased labor capacity, simplified process of production of binder. 2 tbl

Description

 The invention relates to building materials, namely, compositions of mixed gypsum binders, and can be used for the manufacture of building products and in monolithic housing construction.

 Known gypsum cement-pozzolanic binder (HCPV), including, by weight. semi-aquatic gypsum 50 75; Portland cement 15 25; pozzolanic additive 10 25 [1] The disadvantage of this mixture is the need to use Portland cement, which increases its cost. In addition, the appointment of the optimal composition requires special laboratory studies in each case, the need for which is due to fluctuations in the chemical composition of both Portland cement and the pozzolanic additive used.

The closest in technical essence is a binder containing semi-aquatic gypsum, calcium hydroxide and silica-containing additive, in an amount of 0.5 to 1 wt. hours for 1 wt. including hyposlime mixture [2]
However, the disadvantage of this composition is the low durability of the product based on it and a very diverse chemical composition of additives, which in each case requires adjustment of the initial composition.

 The essence of the invention lies in the fact that as additives in the binder, including semi-aquatic gypsum, silica fume, calcium oxide and C-3 superplasticizer are used in the following ratio of components, wt.

Semi-aquatic gypsum 78.4 81.6
Silica fume 10 12
Calcium Oxide 8 9
Superplasticizer C-3 0.4 0.6
Silica fume production waste of ferroalloys. The silica fume of the Stakhanov Ferroalloy Plant was used. Its physico-chemical characteristics are presented in table. one.

 We used a C-3 diluent (TU 6-14-625-80), obtained on the basis of the sodium salts of the condensation product of naphthalenesulfonic acid and formaldehyde and chemically pure CaO.

Example. For experimental verification of the claimed composition were prepared five mixtures of ingredients. Samples prisms 4 x 4 x 16 were made. The samples were kept under normal conditions at 15–20 ^° C and a relative humidity of 95 for 14 days, after which they were tested for compressive strength.

 Water resistance was evaluated by the value of the softening coefficient equal to the ratio of the compressive strength in a water-saturated state to the compressive strength of samples dried to constant weight. The test results are given in table. 2.

 From the table. 2 it follows that the multicomponent non-clinker waterproof gypsum binder (MBVGV) has increased water resistance and allows using it as a material for building envelopes, in addition, its preparation technology is simplified.

 The use of MBVGV will make it possible to obtain material for building envelopes, combining the positive qualities of a gypsum binder and the necessary water resistance, as well as expand the raw material base of binders and utilize production waste.

Claims (1)

 A binder, including semi-aquatic gypsum, lime (calcium oxide) and a silica-containing additive, characterized in that microsilica and additionally C 3 superplasticizer obtained on the basis of the sodium salts of the condensation product of naphthalene sulfonic acid and formaldehyde are used as additives, in the following ratio of components, wt. Semi-aquatic gypsum 78.4 81.6
Lime (calcium oxide) 8 9
Silica fume 10 12
Superplasticizer C 3 0.4 0.61

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