RU2606738C1 - Method of shrinkage relative deformation minimization of hardening filling mass - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to mining industry and can be used in development of mineral deposits with hardening stowing of mined-out space. Method of shrinkage relative deformation minimization of hardening filling mass is proposed to achieve the technical result, including arrangement of reinforcing elements simultaneously with hardening mixture in the mass, at that, to ensure uniformity, said mixture is required to be mixed for 25 minutes min, and chrysotile asbestos – chrysotile in an amount of 10 % of the binder weight are used as reinforcing elements.

EFFECT: technical result of the present invention consists in stability improvement of the artificial roof, limitation of underground mining works negative influence on the environment, maintaining integrity of the ground surface and protecting it against sedimentation.

1 cl, 1 tbl

Description

The invention relates to the mining industry and can be used in the development of mineral deposits with hardening the laying of the developed space.

A known method, comprising feeding a mixture with a different binder content to the spent chamber, in which the chambers are laid with mixtures containing binders, is produced in its lower part to the level of the upper boundary working out of the underlying horizon, then the bookmark is laid with mixtures without binders to the level of the drilling horizon soil, after shrinkage of the embedded layer, filtration and evaporation of water around the perimeter of the chamber in the shrinkage gap place a reinforcing structure, in the embedded array along the walls of the chamber, drill wells to the mark, finding below the upper mark of the bookmark layer in the lower part of the chamber, part of the array between the walls of the chamber and the walls of the wells is destroyed, reinforcing bars are inserted into the wells in excess of them above the level of the laid mass, then the wells and the filling gap are poured with a solution containing binders, after which the upper part of the chamber filled with a mixture of binders (RF patent No. 2367797, published September 20 , 2009).

 The disadvantage is the high complexity of the work, the uncertainty in the amount of shrinkage of the formed array and the high consumption of expensive reinforcement.

A known method of hardening the filling array with reinforcing material in the form of pieces of metal wire. The method consists in the fact that increasing the stability of the outcrops of the backfill array is achieved by simultaneously placing the reinforcing material in the form of pieces of metal wire and the hardening mixture in the zones adjacent to the exposed surfaces of the backfill array (USSR Author's Certificate N 663855, published on 05.25.1979).

The disadvantage of this method is that the reinforcing material supplied to the zone of exposure of the massif is distributed unevenly in the stowing mass, which leads to a decrease in its strength and unevenness of shrinkage deformations, since in the places of accumulation of metal segments as a result of their contact with the aggressive environment they corrode which destroys the structure of concrete. In addition, the material used for reinforcing has a high cost, which leads to an increase in the cost of laying. An additional drawback is the lack of information about the shrinkage value of the filling array.

A known composition for the manufacture of composite polystyrene foam concrete containing hydraulic binders, lightweight filler, air-entraining and plasticizing additives, and which contains basalt fiber as a shrink additive - 0.002-0.005 wt.%, As a reinforcing additive polypropylene fiber - 0.002-0.005 wt.% ( RF 2447040, published 04/10/2012).

The disadvantage is the use of two materials as reinforcing and anti-shrink additives, which leads to an increase in the complexity of work due to the additional number of components. Another disadvantage is the weak degree of reinforcement, which will lead to unevenness in the structure of the backfill array and, as a consequence, the unevenness of shrinkage deformations.

Known non-shrink composition for repairing concrete road, bridge and airfield coatings (RF 2362752, published July 27, 2009), which contains 0-7% by weight of a nanomodified basalt microfiber binder, on the surface of the fibers of which ultrafine carbon nanoparticles with a linear size of about 50 are sorbed -100 nm, in an amount of 0.005-0.010 wt.%, And water contains 0.1-0.2% by weight of the binder.

The disadvantage is the high complexity of the work due to the large number of components and the insufficient degree of reinforcement of the filling array to achieve the effect of minimizing shrinkage.

Known hardening mixture is the basic base of cement slurry (RF patent 2337124, published October 27, 2008), which contains a mixture in the ratio of 0.3-2.0: 1 polyamide fiber with chrysotile asbestos 0.5-4 wt.%.

The disadvantage is the high complexity of the work due to the large number of components, differences in the purpose and scope of the grouting mortar and hardening filling mass and the lack of information about the relative strain of shrinkage.

The closest is the method of hardening the filling array, including placing reinforcing elements in the formed array simultaneously with the hardening mixture, characterized in that in order to increase the resistance of the filling array to fracture when combined with alternating tensile and compressive forces, basalt fiber in the amount of 4 is used as reinforcing elements 5% by weight of the hardening mixture (RF patent No.2019712, published September 15, 1994).

 The disadvantage is the large number of reinforcing elements, which limits their uniform distribution in the mixture, which determine the uniformity of shrinkage strains, and the lack of information about the relative shrinkage strain of the filling mass. An additional disadvantage is the restriction in the quality of reinforcing elements of chrysotile asbestos fibers.

The objective of the invention is to develop a method of minimizing the relative deformation of shrinkage eliminating the under-laying of the worked out space.

To achieve a technical result, a method is proposed for minimizing the relative shrinkage strain of a hardening backfill array, including placing reinforcing elements in the formed array simultaneously with a hardening mixture, and to ensure uniformity, this mixture must be mixed for at least 25 minutes, and chrysotile asbestos is used as reinforcing elements - chrysotile the amount of 10% by weight of the binder.

The technical result of the invention consists in increasing the stability of the artificial roof, limiting the negative impact of underground mining on the environment, maintaining the integrity of the earth's surface and protecting it from subsidence.

A method of minimizing the relative deformation of shrinkage of a hardening backfill array is as follows. An artificial massif is formed from a hardening filling mixture, into which reinforcing elements - chrysotile asbestos - chrysotile are fed into the worked-out space before being laid, and the mixing time of the components should not be less than 25 minutes.

To test the efficiency of the proposed method, a model of the filling array was made, consisting of a binder, aggregate, superplasticizer, water. Two series of the array were made: in the first series (control) chrysotile asbestos - chrysotile was not added. In the second series, 10% of the mass of astringent chrysotile asbestos - chrysotile grade A-4-30 TU 5721-01-028-1476 was introduced into the mixture.

The relative deformation of shrinkage was determined on samples of all series measuring 40x40x160 mm, which hardened for 90 days under normal conditions according to GOST 10180-90. After a day of hardening, 2.3 mm thick metal plates were glued to the end surfaces of all samples intended for determining shrinkage using glue in accordance with GOST 24544-81 “Concretes. Methods for determining shrinkage and creep strain. " The tests were carried out on the device in accordance with GOST 24544-81. Shrinkage was determined by an indicator of the sentry type ICh-0.1. The test data are shown in table 1.

To establish the necessary time for mixing the components, the composition of the second series was mixed for 15, 20 and 25 minutes. When mixing for 15-20 minutes, an uneven consistency of the mixture and the presence of lumps were observed; the spreading spot according to Suttard had an irregular shape. The presence of lumps indicates the impossibility of distributing asbestos fibers evenly throughout the entire volume of the future artificial massif, which will affect the unevenness of its shrinkage deformations.

Table 1 Experimental data Series No. The amount of chrysotile asbestos,% of the binder The relative deformation of shrinkage,% 1 (control) 0 0.363 2 (proposed) 10 0

It follows from the table that the proposed method of minimizing the relative deformation of shrinkage eliminates the under-laying of the worked out space, which increases the stability of the artificial roof, limits the negative impact of underground mining on the environment, ensures the integrity of the earth's surface and protects it from subsidence.

Claims (1)

A method of minimizing the relative shrinkage strain of a hardening backfill array, including placing reinforcing elements in the formed array simultaneously with a hardening mixture, characterized in that the components of this mixture are mixed for at least 25 minutes, and chrysotile asbestos is used as reinforcing elements - chrysotile in an amount of 10% by weight astringent.