UA132467U - BINDING - Google Patents

Abstract

The binder contains high-roasted phosphogypsum, a curing catalyst (Portland cement), and the addition of quicklime. Additionally contains the addition of micro silica.

Description

The utility model belongs to the construction materials industry and can be used in the manufacture of construction products, in particular for poured floors, window sills and products that work on bending.

It is known that the binder contains, in mass. 90: high-burnt phosphogypsum - 98; hardening catalyst - sodium sulfate - 2. (Gypsum and phosphogypsum. Collection of works on chemical processing of gypsum and phosphogypsum. Edited by Academician S.I. Wolfkovich. - M.: Goshimizdat, 1958. p. 272-282 11).

However, this binder has low strength, because the residues of orthophosphoric, sulfuric and hydrofluoric acids contained in phosphogypsum slow down the hydration of insoluble anhydrite, which negatively affects the strength of the stone based on it.

The closest to the proposed composition of the binder is the binder |2), which includes high-burnt phosphogypsum and a hardening catalyst, according to a useful model, as a hardening catalyst it contains portland cement and additionally quicklime with this ratio of components, wt. 9: high-burnt phosphogypsum 86...94 quicklime 3...7 portland cement 3...7.

The disadvantage of this composition is a low coefficient of water resistance, which limits the area of use of products based on this binding medium, which is characterized by low humidity.

The basis of a useful model is the task of creating a binder, in which the use of a hardening catalyst (portland cement) and quicklime additives, the introduction of a new component would contribute to the formation of new calcium compounds, which would ensure an increase in the binder's water resistance coefficient and allow the use of construction products on on its basis in conditions of high humidity.

The task is solved by the fact that the binder contains high-burnt phosphogypsum, a hardening catalyst (Portland cement) and an additive of quicklime. Additionally, it includes an additive of microsilica in the ratio of components, wt. 9o: high-burnt phosphogypsum 79...91 quicklime 3...7 portland cement; 3...7 microsilica 3...7.

The introduction of microsilica into the composition of the binder ensures the binding of the product of quicklime hydration into low-soluble calcium hydrosilicates, the presence of which in the composition of the hardening binder increases its water resistance, that is, it allows the use of the indicated binder for the manufacture of products operated in conditions of high humidity .

To obtain a binder, we used:

Zo - phosphogypsum "Prydniprovsk Chemical Plant" of the following chemical composition, mass. 90: Sas - 33.5; 5Oz- 36.8; 5iOg - 0.7; AIg2Oz - 0.34; Reg2Oz - 0.63; P2Ov - 2.88; MagO - 0.17; v.pp. - 24.98. - quicklime of the 1st grade with the content of active SAO and ModO - 95.4 95, slaking time 8 minutes, according to DSTU B V.2.7-90-99 "Building lime. Technical conditions". - portland cement PC-I-500 according to DSTU B V.2.7-46-96 "Cements for general construction purposes. Technical conditions". - microsilica - ferrosilicon production waste, which includes 87,595 amorphous silica.

The physico-mechanical characteristics of the binder were determined by testing beam samples measuring 4x4x16 cm, in accordance with DSTU B B.2.7-4-93 "Gypsum binder made of phosphogypsum".

To test one composition of the binder according to the analogue and according to the proposed technical solution, 9 samples were made, three of which were tested at the age of 28 days when determining the brand of the binder, three samples were tested after 60 days of their storage in air-dry conditions, three samples were tested after 60 days of their storage in water. The arithmetic mean value of the compression test results of 6 samples was taken as the test result.

The coefficient of water resistance was determined as the ratio of the strength of the material saturated with water (the strength of the samples stored in water) to the strength of the samples in the dry state in accordance with "Building Materials Science" edited by P.V. Kryvenko. - K.: UVPC "ExOb" LLC, 2004. P. 73

ISI

The composition of the binder and the results of its testing are given in the table

Table

The proposed composition

Phosphogps 77777771 1191 1 85 | 79 | 94 | 90 | 86

Portland cement

Microsilica.////// HER 13 1 5 | 7 1 - | - | -

Characteristics of the binder

Compressive strength, MPa: пн""'nKNIIVVVVVVYTOVLVLVOTVVLOTLVLTITOVOVOLOLOTOTOTOITI at the age of 28 days at the age of 60 days storage in air-dry conditions 63.9 61.6 61.6 65.7 66.4 65.5 at the age of 60 days storage in water

Coefficient of water resistance

The given data indicate that, in comparison with the known technical solution (2), the binding agent of the proposed composition has an increased coefficient of water resistance, the value of which, depending on the amount of the introduced new component, is 0.73...0.89, while in by analogy, it is characterized by a coefficient of water resistance in the range of 0.61...0.63.

The specified indicators exceed the similar indicators of the binder by analogue, which is a consequence of the formation of insoluble calcium hydrosilicates in the medium of the hardening binder, which are formed due to the interaction of microsilica with the product of hydration of quicklime.

Sources of information: 1. Gypsum and phosphogypsum. Collection of papers on chemical processing of gypsum and phosphogypsum. Ed. Acad. S.I. Wolfkovich. - M.: Goshimizdat, 1958. p. 272-282. 2. Patent of Ukraine Mo 20933, C048 11/26 (2007.01), C048 11/30 (2007.01), Bull. Me2, 15/02/2007 3. Construction materials science. Edited by P.V. Kryvenko. - K.: UVPK "ExOb" LLC, 2004.

P. 73.

Claims (1)

USEFUL MODEL FORMULA A binder containing high-burnt phosphogypsum, a hardening catalyst (portland cement), and an additive of quicklime, which is distinguished by the fact that it additionally contains an additive of microsilica, with the following ratio of components, by weight. 90: high-burnt phosphogypsum 79...91 quicklime 3...7 portland cement 3...7 microsilica 3...7.