SU1497175A1 - Raw stock mixture for making portland cement clinker - Google Patents

Abstract

The invention relates to the building materials industry, to the production technology of portland cement clinker, and to raw mixes. Aimed at improving sulphate resistance. Raw mixture contains components, wt%: aluminosilicate component 0.5-9.0

nickel slag sulfide ores 8.0-24.0

sandstone 0,5-10,0

known to - the rest. The corrosion resistance coefficient is in a solution of MGSO ₄ 1.10

in a solution of NA ₂ SO ₄ 1.16

in a solution of CASO ₄ 1.25. 4 tab.

Description

The invention relates to construction materials and can be used in the production of sulphate-resistant cement and products based on it.

The purpose of the invention is to increase the sulfate resistance of Portland cement.

An example of a specific embodiment of the invention.

To obtain sulfate-resistant cement, nickel slag of sulfide ores and raw materials are used, the chemical composition of which is given in Table. one.

The compositions of the mixtures are presented in table. 2

The components are metered in the indicated ratios. They are ground together, briquetted and fired at 1350-1450 s for 30 minutes. The resulting clinker is rapidly cooled in air and milled to a depno surface of 2700-3000 cm / g.

The composition of the clinkers is presented in table. 3

Test results are presented

in tab. four.

The content of the aluminosilicate component above 9.0% leads to the synthesis of CjA + C4-AF more than 22%, which does not meet the requirements of GOST for sulphate-resistant cement, or leads to a decrease in the content of Cj S and a decrease in the activity of cement. The content of nickel slag sulfide ores of less than 8% is known (prototype), and more than 24% leads to a mineral content - flux (+ + CzA), exceeding the permissible limits (danger of clinker welding in the furnace). In addition, in such clinkers the amount of Cs decreases, which leads to a decrease in the activity of cement (see compositions 5 and 1 in the test report). Sand dosage less than 0.5% is not technologically feasible.

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sd

Claims (1)

a higher than 10% leads to an increase in the proportion of silicates and makes it difficult to burn the clinker, moreover, it leads to a decrease in the saturation rate, a decrease in CjS and a decrease in the activity of cement (example 6 and 2 in the test report). Invention Formula Thus, sulphide ores and limestone, characterized in that, in order to increase the sulphate resistance of portland cement, it additionally contains sandstone in the following ratio of components, wt.% Aluminosilicate component 0.5-9.0 Table 2 The composition of raw mixes 1 2 3 4 5 6 12 75 78 78 77 73 77 79 78 0.5 10 5.0 5.0 0.5 P., 5 Composition of clinkers Table Test Results Table 3