SU994747A1 - Composition for treating rock - Google Patents

Description

The invention relates to mining, namely to chemical means of destruction (weakening), mainly sandstones, and can be used to process other rocks with a strength factor of f 4-18 on the Konov horse scale.

Preliminary destruction (weakening) of rocks is of great practical interest primarily because it allows to significantly increase the productivity of the tunnel equipment, reduce the energy intensity of the process of rock destruction, reduce the wear of the rock-forming tool. ,

The known method of destruction (weakening) of rocks consists in treating the rocks with solutions of chemical reagents-electrolytes and surface-active substances (surfactants) by pre-pumping the thief into the reservoir or by irrigating the working equipment 1.

However, this reagent-reducing agent for rock strength is not effective enough when moving to sandstone.

Closest to the invention in technical essence and the achieved result is a solution for treating rocks containing water and metal chlorides 2.

However, the effectiveness of the destruction (weakening) of sandstone in this case cannot be considered satisfactory.

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The aim of the invention is to increase the effectiveness of rock attenuation.

The goal is achieved by the fact that in a solution for treating rocks containing water and metal chlorides, the waste of the chlorination stage of titanium concentrate of titanium-magnesium production is used as metal chlorides in the following ratio of components, wt.% 1

20 Waste from the stage of chlorination of titanium concentrate of titanium-magnesium production 0.04-0.06

25 WaterEmerging

The solution is prepared by dissolving with stirring for 4-6 minutes the calculated amount of the sill weight - titanium-magnesium production waste in accordance with the corresponding amount of technical

Water at room temperature. The solution ready for use is a practically transparent yellow liquid from which grains of insoluble Impurities settle at the bottom of the vessel. The solution is applied by injecting into the formation or by irrigating the zone of action of the rock cutting tool.

In order to conduct laboratory tests in order to determine the effective impact on the rock and the optimal concentration ranges of the components, a number of solutions were prepared, the compositions of which and the results of the tests are given in the table.

As is evident from the Bathrooms listed in the table, the greatest decrease in sandstone strength occurs when it is treated with solutions containing 0.04-0.06 waste. An increase in waste concentration above the upper claimed limit, as well as lowering it below the claimed lower limit, leads to a decrease in the efficiency of the solution.

The proposed solution is a more effective sandstone strength reducer than the known solutions. When processing the rock with the proposed solution, the reduction in strength compared to dry rock is 59.8-64.0%.

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Claims (2)

1. Rebinder PA et al. Hardness reducers in drilling. M., Publishing House of the Academy of Sciences of the USSR, 1944, p. 111. 2.Kuskov N.F. et al. Physico-chemical effect on the strength of mountains, 1980, TsNIIugol breeds. M., with. 28 (prototype)