RU2147561C1 - Lithium-containing destructing composition - Google Patents

Abstract

FIELD: stone extraction and mining industries, more particularly destruction of stone, concrete and reinforced concrete structures. SUBSTANCE: nonexplosive destructing composition comprises calcium oxide from fired limestone and gypsum, urea and glycerol, ratios of components being as follows, wt % urea, 1.8-23.0; glycerol 2.6-12.8, calcium oxide from fired limestone and gypsum, the balance. EFFECT: greater efficiency and improved breaking and destruction quality of monolithic objects and temperatures ranging from +5C to -10C. 2 tbl

Description

 The invention relates to the mining and mining industries and can be used in the destruction of concrete, stone, reinforced concrete structures, etc.

Known destructive composition (and.with. 2052405 6 C 04 B 7/153, BI N 2, 1996), including plasticizer and quicklime, modified by calcination with an alkali-containing additive in the following ratio of components, wt.%:
Modified quicklime - 90.0 - 99.5;
Condensation Product of Resorcinol Formaldehyde In An Alkaline Environment - Else
The disadvantage of this composition is the slow set of self-stress in the rocks of the size in the mode of negative temperatures.

Closest to the claimed composition is non-explosive destructive composition (AS USSR B 2010778, C 04 B 7/00, publ. Bi N 7, 1994), including limestone and phosphogypsum, characterized in that in order to reduce time destruction, expansion of the temperature range it additionally contains calcium chloride in the following ratios of components, wt.%:
Limestone rock - 85 - 90
Phosphogypsum - 9 - 12
Calcium Chloride - 1 - 3
The disadvantage of this composition is the low hydration rate at low temperatures and is more than 36 hours, and therefore low self-stress, which leads to additional drilling operations and an increase in the number of LDCs.

The objective of the invention is the development of non-explosive compositions capable of low-positive and negative temperatures from +5 to -10 ^o C to work on breaking and destruction of both rocky and artificial materials based on local non-deficient and most affordable raw materials.

The technical result is that the non-explosive mixture will improve the productivity and quality of breaking and destruction of monolithic objects in the temperature range from +5 to -10 ^o C.

It is achieved by introducing into a known non-explosive destructive composition containing calcium oxide from limestone and calcined gypsum, additionally glycerol and urea in the following ratio of components, wt.%:
Urea - 1.8 - 23.0
Glycerin - 2.6 - 12.8
Calcium Oxide from Calcined Limestone and Gypsum - Else
The introduction of urea and glycerol in the composition of calcium oxide will dramatically increase labor productivity at ambient temperature from +5 to -10 ^o C by increasing the rate of hydration and increasing self-stress.

 With the introduction of urea and glycerol, the necessary frost resistance of the mixture increases and the hardening process is accelerated due to the reaction in which heat is released.

 The experimental data of the proposed non-explosive compositions are shown in tables 1 and 2.

Calcined limestones and gypsum at 1200 ^° C were used as powder of non-explosive destructive composition. The calcination time was 5 hours with a CaO activity of at least 96%, crushed to a specific surface of 2800 cm ² / g.

 Samples of various rocks with a tensile strength of 2.5 - 5.5 MPa were prepared as a destructive object. Dosed additives are simultaneously introduced into the composition, which is mixed for 2 to 3 minutes at various powder-powder ratios.

The process of hydration and self-stress was recorded in the freezer. The rupture time was 6-10 hours depending on the temperature (+5 ...- 10 ^o C), which is quite acceptable for production conditions.

где x, y, z, h - процентное содержание компонентов невзрывчатого состава: оксида кальция, мочевины, глицерина и воды; m - количество оксида кальция, полученное после реакции гидратации.The comprehensive formula of the proposed non-explosive composition

where x, y, z, h is the percentage of non-explosive components: calcium oxide, urea, glycerin and water; m is the amount of calcium oxide obtained after the hydration reaction.

The use of LDCs in comparison with the prototype will increase labor productivity and reduce the cost of breaking (destruction) 1 m ³ usable mass during year-round operation.

Claims (1)

Non-explosive destructive composition, including calcium oxide from calcined limestone and gypsum, characterized in that it additionally contains urea and glycerin in the following ratio, wt.%:
Urea - 1.8 - 23.0
Glycerin - 2.6 - 12.8
Calcium Oxide from Calcined Limestone and Gypsum - Else

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