SU1765398A1 - Method of modelling structural rock weakening by equivalent materials - Google Patents

Abstract

Use: The field of modeling in the study of the displacement of rocks in the development of mineral deposits. SUMMARY OF THE INVENTION: The method includes the creation of structural attenuation by strips of artificial material with dimensions equal to the width of the model and the height of the rolled layer, with evenly distributed holes distributed over the area, the size of which determines s dependences of the adhesion of structural weakening under natural conditions material and size of holes in the strip. Dacron, celluloid, paper can be used as strips of artificial material. 1 hp f-ly.

Description

WITH

with

The invention relates to the field of modeling and can be used to study the process of displacement of rocks in the development of mineral deposits.

The process of displacement is influenced by structural weaknesses formed in the rock mass. Such structural weaknesses include contacts between layers, spalling surfaces in metamorphic rocks, contacts between various lithologic differences of igneous rocks, large stretch tectonic cracks, replacement zones of some rocks by others. They have some cohesion. For example, in the Third Solikamsk potash mine of the Verkhnekamskoye deposit, a violation was found in the overlying column. Processing at this mine is led by a camera system with

supple pillars. The use of the same parameters in the disturbance zone can lead to water-conducting cracks in the water-protective column and to the flooding of the mine. Unreasonable increase in parameters will lead to loss of mineral and its appreciation.

The method of physical modeling allows to obtain safe and optimal parameters for working out. In this case, the clutch reproduction in violation is important.

A known modeling method in which models of equivalent materials reproduce fractures by notching with a knife just made a layer that did not have time to grab (in mixtures, cemented with gypsum solution) or cool (in mixtures, cemented with paraffin).

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the spatial orientation of the crack is carried out by tilting the knife during cutting. Knives (plates) can remain in the layer until it is completely cooled or removed immediately after cutting the cleavage.

The disadvantage of this method is that the simulated cracks have an adhesion close to zero, which in this case cannot be changed, for example, the required adhesion in modeling violations is 0.5 array adhesion. In this case, the fidelity of the clutch in a known manner will be low.

There is also known a method by which, before pouring a hardening mixture into a mold, a spatial model of cracks of combustible or evaporating material is established in it, after which the model is calcined before the model of cracks burns or evaporates, while the hardening equivalent mixture is not combustible.

The disadvantages of this method are the unregulated adhesion between the layers, the change in the physicomechanical properties of the equivalent material when it is heated to the burning temperature, thereby violating the principle of a similar nature model (binding the equivalent material paraffin and rosin have a melting point of 140-170 ° C). This way it is impossible to reproduce the adhesion along the crack, so there will be no credibility of the modeling process.

The aim of the invention is to improve the accuracy of the simulation.

The goal is achieved by determining the adhesion coefficients for a crack, an equivalent material and an equivalent material with an artificial material of a strip, the holes are made uniformly over the area of the strips of artificial material, and the total area of the holes is determined from the expression KtP Ci

KMKM

where Si is the area of holes created in the strip, cm2;

S2 is the area of the strip, cm1;

КТр - adhesion coefficient along the crack, kg / cm2;

Km coefficient of adhesion of equivalent material, kg / cm2;

Ci is the adhesion coefficient of the equivalent material with the material of the artificial strip, kg / cm2.

And as an artificial material, a material is used, the adhesion coefficient of which with the equivalent Si Si S2 ()

the scrap is less than the adhesion coefficient of the equivalent material.

The method is carried out as follows. In the stand, a layered model of an equivalent material with a removable formation is made. In the process of making a model, starting from the reservoir, the tectonic disturbance is fabricated as follows. Prepare a strip of thin

plastic material with a width equal to the width of the model. The length of the strip corresponds to the length of the tectonic disturbance on the model. The strip is cut into strips with a height equal to the layer being rolled in order not to disturb the displacement along the contact of the layers and to preserve the layering around the crack. Holes are cut into the strip, the size of which is determined from the expression I Si Kur Ci

S2 Km Km

where Si is the area of holes created in the strip, em2;

$ 2 - strip area, cm2;

КТр - adhesion coefficient along the crack, kg / cm2;

Km - adhesion coefficient of equivalent material, kg / cm2;

Ci is the coefficient of adhesion of equivalent material with the material of an artificial strip, kg / cm,

Using the above formula, it is possible to determine the area of the holes, the shape of which can be itself varied, depending on the convenience of production. For simplicity, we take square-shaped holes with a side of square a. The choice of size a depends on the layer height or the width of the model so that the size a is 3 or more times smaller than the height of the layer, thereby ensuring a better uniformity of the holes.

The number of holes is determined by the values: Sj and a, positioning them evenly on the strip.

The coefficient of adhesion along the crack may vary. Then the dimensions a and b are changed accordingly.

The strip is inserted into the model in the right direction at the same time asleep.

portion of equivalent material into the bench and leveled. It is covered on top with cardboard and rolled according to a known technology.

For simulating adhesion through the contact of the layers, the order of actions remains the same. As the material of the strip, paper with low strength properties is used, for example, newsprint, bulwark, in which holes are cut through,

the dimensions of which are determined by formula I. The strips of paper are laid on a rolled layer. After that, it is poured in an even layer of equivalent material and rolled.

Using the Coulomb's theory of strength, based on the assumption that the rock’s resistance to shear over the site is equal to the sum of adhesion and the value proportional to the normal stress on this site, we write

C: T: -tgFG,

where: T: is the absolute value of the ultimate shear stress;

tgF is the coefficient of internal friction (F is the angle of internal friction);

G is normal voltage.

Tests to determine the adhesion of artificial materials (paper, lavsan, celluloid) with equivalent material were carried out in matrices. Since the adhesion coefficient is determined per unit area, the area of the matrices is measured. The resulting shear load is related to the area of the matrix. Therefore, the adhesion in the structural weakening of the model can be changed by the contact area, breaking up for this purpose the required direction of the structural weakening plane to the sites over which the adhesion coefficient is changed.

The adhesion of structural weakening is conveniently specified in parts of the cohesion thicker, since no recalculation is required in this case. Based on the known data obtained under natural conditions, the adhesion coefficient of structural attenuation can vary from 0 to 0.5 cohesion of the array.

The clutch Km of the used sand-paraffin material is 0.4-0.8 kg / cm. When used as materials for strips of paper, lavsan, celluloid in sand-paraffin models, it turns out that C1 "Km, therefore, when choosing the size of holes in expression I, the ratio will be small and neglected.

After the model is manufactured, it is tested, by the results of which it is possible to judge the effect of the disturbance on the condition of the water barrier when choosing the optimal mining parameters.

The accuracy of the simulation (testing) depends on the accuracy of the clutch in the model. With a structural weakening adhesion equal to 0.5 model adhesion, and an equivalent material adhesion coefficient of 0.6 kg / cm2, we obtain the structural adhesion coefficient

in the proposed method, 0.3 kg / cm2 is weakened, and in the prototype, 0.01 kg / cm2.

The prototype method fails to achieve the goal, since crack adhesion is 0.017 material adhesion, and 0.5 is required.

Modeling violations of the proposed method increases the reliability, because allows to take into account the coefficient of adhesion throughout the trench.

An example of a specific application.

The purpose of the simulation is to select the mining parameters of the Kr2 reservoir, the Third Solikamsk mine, in the area of disturbance located in the water barrier. The seam thickness is 2.5 m, the depth is 310 m.

According to field studies, it was found that in the existing violation over 1 panel, the adhesion coefficient is two times less than the thickness.

For modeling, a 1: 300 scale model was used, the model layers were separated by scaly mica, since data on the clutch on the contacts are missing. Layers have a horizontal bedding.

The sediment thickness is 10–15 m, the equivalent material used for them consists of 97% quartz sand and 3% mineral oil. The water protection thickness is 150 m, the composition of the equivalent material: sand - 60%, mic - 30%, paraffin - 10%. For the rest of the strata: sand - 70%, micas - 25% i paraffin - 5%.

Dacron was used as an artificial material for strips (cracks). The size of the strips is 300 mm (model width) X 20 mm (layer height). The height of the crack is 600 mm. The number of strips is 600: 20 30 pieces. The shape of the holes taken square with the size of a, equal to 20: 3 6 mm

The tests to determine the adhesion coefficient of the equivalent material are set at 0.7 kg / cm2. The coefficient of adhesion of equivalent material with lavsan is 0.02 kg / cm. In formula I, the ratio is not taken into account, since From “Km, then

51 Ctr

52K „

 0.5

Arranging the holes evenly on the strip with the axis of symmetry 45, we define b 6.0.41 2-5 mm.

In size a and b we cut holes in the strips.

In the process of making the model, layers are placed along the cracks. After making the model, it is equipped

sensors, strain gauges to remove information.

In the process of testing, the models work out the formation. As a result of information processing, graphs of displacements and deformations of the surface and the thickness are obtained, taking into account which they take safe parameters of mining.

The applied parameters of the chamber mining system before approaching the violation are 10 m, b 9 m. The simulation results showed that in the zone of violation, determined by the angles of displacement, the safe parameters will be equal to 5 m, L 10 m.

The prototype method does not allow to set the amount of adhesion both in disturbances and between the layers, thereby reducing the reliability of the adopted parameters of the reservoir mining.

The application of the proposed method in modeling the contact of layers of rocks will allow changing the magnitude of the adhesion of the layers to the contact, which will increase the reliability of the problem being solved. Structural weakening influences the process of shifting the sequence. When calculating the horizontal deformations in the places where the structural weakening is found, an overload coefficient is introduced. In the salt fields, dangerous for the breakthrough of water, they change the mining parameters or leave the pillars. The study of structural weakening reduces the loss of mineral. An increase in the accuracy of modeling the adhesion of structural weaknesses will make it possible to more reliably determine the parameters of mining of the mineral, the magnitude of displacements, deformations of the thickness and surface. Modeling without clutch will result in a distorted result.

Timely investigation of irregularities in the water barrier is primarily necessary for the safe management of

mining at potash mines. As a result of the flooding of the BKPRU-3 in 1986, losses to the state amounted to tens of millions of rubles. Increasing the accuracy of determining the parameters of the reservoir mining by simulating in laboratory conditions reduces the degree of threat of flooding of the mine.

Claims (2)

1. A method for modeling equivalent materials of structural weakening of rocks on models of equivalent materials, including placing the equivalent material in a form and placing it in an equivalent material according to a predetermined Pattern of artificial material strips with holes, characterized in that, in order to improve the accuracy of modeling, adhesion coefficients for a crack of an equivalent material and an equivalent material with an artificial material of a strip, holes are made uniformly over the area of the strips and artificially material, wherein the total area of the holes determines expression yut.iz with „- QO (TP Ci h 01-02 (if-) i 4 KM km where St is the area of holes created in the strip, cm2; Over - the area of the strip, cm2; KTR - adhesion coefficient for the crack, kg / cm; Km - adhesion coefficient of equivalent material, kg / cm2; Ci is the coefficient of adhesion of an equivalent material with an artificial strip material, kg / cm2. 2. A method according to claim 1, characterized in that a material is used as an artificial material, the adhesion coefficient of which with an equivalent material is less than 4 of the adhesion coefficient of an equivalent material.