UA31387U - Complex superplasticizer for gypsum binder - Google Patents

Abstract

A complex superplasticizer for gypsum binder comprises well-known superplasticizer of Melflux type on the basis of polycarboxylate ether. It additionally contains the lime in the ratio Melflux:lime (calculated by CaO) – 0.15…0.25, in such a case the consumption of the complex superplasticizer is 2.5…4.5 % of gypsum binder by weight.

Description

Description of the invention

The useful model refers to the building materials industry and can be used at 2 enterprises for the production of gypsum binders and products from them.

The well-known C-3 superplasticizer for reducing the water consumption of gypsum binder and increasing its strength, which includes sulfonaphthalene formaldehyde as a chemical base (Gypsov material and products (production and application). Reference book: Under the general editorship of A.V. Ferronskaya. - M.: ASV Publishing House, 2004, p. 69...70). The disadvantage of this superplasticizer is the high water consumption (45...6095), short 70 hardening times (start of hardening 2...20 minutes) and low strength (2..6MPa) of the gypsum binder when using this additive.

Meitepi B 10 and Meitepi E 156 superplasticizers are also known for reducing the water consumption of gypsum binder and increasing its strength, which include sulfonaphthalene formaldehyde as a chemical base

IP.V. Zakharchenko, E.M. Dolgyi, Yu.O. Galan, O.M. Havrysh, D.V. Gulin, O.Yu. Starchenko. Modern composite 12 building and finishing materials. Textbook. K.; 2005, p. 233...235)|. The disadvantage of these superplasticizers is also high water consumption (45...5595), and low strength (4...7MPa) of the gypsum binder when using these additives.

Superplasticizers of the MeShih type for reducing the water consumption of gypsum binder and increasing its strength are closest to the proposed one, which include polycarboxylate ether as a chemical base. (P.V. Zakharchenko, E.M. Dolgiy, Y.O. Galan, O.M. Havrysh, D.V. Gulin, O.Yu. Starchenko. Modern composite building and finishing materials. Textbook. K.; 2005 , pp. 233...23541. The disadvantage of these superplasticizers is also the rather high water consumption (40...5095), and the low strength (6...4MPa) of the gypsum binder when using these additives.

The useful model is based on the task of creating a complex superplasticizer to reduce water consumption and increase the strength of the gypsum binder. 2

The achievement of the set task is achieved by the fact that the composition of the complex superplasticizer, which includes the well-known superplasticizer of the MeShykh type based on polycarboxylate ether, additionally contains lime at the Meiphych:lime ratio (in terms of CaO) - 0.15...0025, while the consumption of the complex superplasticizer is 2.5...4.590o from the mass of gypsum binder. uh-

The use of the proposed complex superplasticizer in the above quantities allows you to obtain a gypsum binder with a water consumption of 0.28...0.38 and a strength of 12...20 MPa, which significantly exceeds these indicators according to the prototype. with

When mixing mesh-type superplasticizers with lime, polycarboxylate ether is modified by replacing Ma ions with Ca ions in the active radicals of this compound. A similar process occurs when using this additive in cement mortars and concretes, where lime is released during cement hydration, but in gypsum binders, in the absence of an alkaline environment, the above modification

MashShyh, without additional introduction of lime is impossible. The introduction of lime into the composition of the complex additive provides an intensive water-reducing effect of the complex additive due to the combined action of both electrostatic and steric (spatial) effects of the modified polycarboxylate ether molecules. 70 The production of complex superplasticizer is carried out by co-grinding a powdered superplasticizer of the MeShykh type with quicklime or dry slaked lime in the above ratios. "from Examples.

In order to conduct comparative tests, 9 compositions of complex superplasticizer were prepared in the amounts by mass of gypsum binder that are declared, as well as 2 compositions according to the prototype and 3 compositions beyond the limits of 395 declared compositions of complex superplasticizer and its quantities by mass of gypsum binder. They used G-5 gypsum according to DSTU B.V.2.7-82-99, Meshikh 1641ER, dry slaked lime of the 2nd grade according to DSTU B - V.2.7-90-99. The water content in the binder (water consumption) was determined on the condition that the gypsum binder dough reached a normal consistency, that is, a spread of 180 mm. The resulting binder was tested for strength in accordance with o 50 GOST 23789-79 and DSTU B V.2.7-82-99 after standing in the air for two hours. so and sing | | 11111 Outside the viacode zv 23.2 581 v 8 | in sea

Melyusyu 00001111 rivolootryvotyu tin 02 02 012 030 030. - (Strength of the binder under compression Mlya 0 468 Mol per av vo te vv vi som iso ti 7898 in 60

As can be seen from the table, the gypsum binder with the proposed complex superplasticizer has significantly lower water consumption and is 3-4 times stronger than the binder with superplasticizer according to the prototype. Decreasing the ratio of MeshikhSaoO to values smaller than those proposed leads to an increase in the water consumption of the binder and a decrease in its strength as a result of an insufficient amount of 65 polycarboxylate ether. An excessive increase in this indicator means an insufficient amount of lime for the modification of polycarboxylate ether and also leads to an increase in the water consumption of the binder and a decrease in its strength.

An insufficient amount of the complex superplasticizer also significantly increases water consumption and reduces the strength of the gypsum binder, while its excessive amount does not increase its effectiveness, but will significantly increase its cost.

Claims (1)

The formula of the invention Complex superplasticizer for gypsum binder, which includes the well-known superplasticizer of type 70 Meshikh on the basis of polycarboxylate ether, which is distinguished by the fact that it additionally contains lime at a ratio of MeShyvapno (in terms of CaO) - 0.15...025, while the consumption of the complex superplasticizer is 2.5...4.5 905 from the weight of the gypsum binder. Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2008, M 7, 10.04.2008. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. shchi z che (ge) (ze) "-- Zo "o - with . and? o - o so what with 60 b5