SU1273555A1 - Method of determining the direction of main tectonic strain in rock body - Google Patents

Abstract

The invention relates to mining and is intended to study natural stress - the deformed state of rocks in an array. The goal is to improve the accuracy of determining the directions of the main tectonic stresses (TH). At the exploration or engineering survey stage, the azimuths (A) and incidence angles of cracks (t) in the massif are measured. Then T is divided into systems. On two high-altitude

Description

the levels measure the opening value T. For each level in all systems T, determine the value of the class of large T as the ratio of the number T with the value opened above the average for the system to the total number of T measured in it. Then, the ratio of the class of large T of the upper level to the lower one for each system T is determined. Comparing, in pairs of systems, the interval of possible values A of the main TH is found.

for each combination of the two T systems from the expressions: (p + pn-O) 2 Po "() prirnia and (pnj, + ri (Pm + Pn + 80 °) prirt Pn. where / and Pn - A stretch systems T, respectively, with smaller and larger values of the ratio of the class of large T of two height levels; jb — A., the main TN. The direction of action of the main TNBZ is determined by the value A, satisfying each of the intervals found. 1 Il, 1 Table.

one

The invention relates to mining and is intended to determine the direction of tectonic stresses primarily at the stage of exploration and engineering and exploration.

The aim of the invention is to improve the accuracy of determining the direction.

The drawing shows the implementation of the method.

The diagram shows the directions of the thrasin systems in the azimuth type of the strike / 5 RP and the direction of the main tectonic stress Cj with the ratio of the class of large cracks of two height levels of systems m more than the ratio of the same class of cracks of two height levels of

The method is carried out as follows.

At the exploration or engineering exploration stage, the azimuths and angles of incidence of cracks are measured using a rock compass. In addition, measurements of crack opening values are carried out, using a simple millimeter ruler for this purpose. If using a ruler it is not possible to accurately determine the magnitude of the disclosure, then use special metal measuring probes or a caliper. The crack opening measurements are carried out at two height levels. In this case, if measurements are made on the surface, then the distance between the height

The levels are chosen in the range from one to several tens of meters. For this purpose, an area of the massif with mountainous terrain is used. This condition is not an obstacle to the implementation of the method, since tectonic stresses are characteristic of parts of the earth's crust with mountainous terrain. When measuring

open the cracks in the wells, the distance between the height levels is chosen in the range of 30-70 m,

The measurement results of azimuths and. the angles of incidence of cracks are plotted on a rectangular grid in the form of points corresponding to individual cracks. The diagram shows condensation points corresponding to fracture systems developed within the limits of the study.

plot. The azimuth and angle of incidence of the fracture system are determined along the center of the thickening points. In the upper and lower altitudes of each system, a class of large cracks is distinguished. For this, the average crack opening in the system is determined. Major cracks with maximum disclosure include those that are higher than the average throughout the system as a whole. The class of large cracks can be distinguished differently, for example, from a certain defined opening, which is also higher than the average opening across the system as a whole.

For each level of the system, the values of the class of large cracks, defined as the ratio of the number of large cracks to the total number of measured cracks in the limits of the considered level of the system, are established. The ratio of the values of the class of large cracks of the upper height level to the lower level is determined for each crack system. The systems are compared in pairs and the interval of possible values of the azimuth of the main tectonic stresses for each combination of the two systems from the expressions are possible: (PA + -1 80 °} .2b f (p ™ + / 3 ") with pn, Pn) ( ) 2 / o (Pm + P "- -80) with where in,, (i п - strike azimuths, meanwhile type; ftg - azimuth of maximum compressive tectonic voltage. In the above expressions, the strike trend of the systems is in the range of 0-180 °. In real rock massifs, as a rule, there are more than three fracture systems, so there is the possibility of determining the interval of possible values azimuths for various combinations of systems. For example, if there are four fracture systems I, II, III, IV, these combinations will be I and II,

Under these conditions for a class, large. Fractures with an opening of more than 5 mm are attributed, since the average opening of cracks in systems does not exceed 2.2 F1.

To determine the azimuth of the strike, the dip azimuth of the systems was added or subtracted 90.

The intervals of possible values of the main tectonic stresses are established from these expressions.

Claims (1)

For a combination of I and II systems, 128; p. / 3 ", hence 90, 1 80.5 °. 554 I and III, I and IV, II and III, II and IV, II and IV. Finally, the direction of the main compressive tectonic siding is determined by the value of the azimuth satisfying each of the intervals of the values found. Example. The method was tested to estimate the stress state, in particular, to determine the direction of tectonic stresses in the rocks of the Kukisvumchorr-Yuksporsky section of the Khibiny massif. By geomorphologic and instrumental methods, it was found that the array in question experienced active, recent movements in the form. Vertical elevations that are currently ongoing. The azimuths and angles of incidence of cracks, as well as the magnitudes of their opening, were measured within the study area. All measurements were carried out at two height levels, the vertical distance between which is about 70 m. The measurement results were plotted on a rectangular diagram. Within the site, four fracture systems were revealed, the parameters of which are listed in the table. For a combination of I and IH systems P. Pr 128i from here 64,, 5, For a combination of I and IV systems MP "92; p, p, 128.r", from here 11 200 °. For a combination of II and TTI systems Pn, -Rsh M p R "53; (p" from here 1 17 °. For a combination of III and IV pn systems, | ii, from here 46.5, 5. A combination of II and IV systems does not p This is seen as the ratios of the class of large cracks to the same height height for them. Thus, the following intervals of possible values of the azimuth of the main tectonic strains are obtained: -O. J.. „-O 90.5, 5 64.5 RS154.5 ° rO no / JoZoo 117 46,, 5 The value of the azimuth satisfies all the given intervals, having the value P0-117. The azimuth of the direction of the maximum tectonic their advantages. The advantages of this method, compared to the prototype, are that, in its implementation, it is not necessary to isolate the interface fracture systems, and this, in turn, eliminates the errors associated with the determination of the compatibility of the systems , subsequent inaccuracies in determining the direction of tectonic stresses. Formula of the invention. A method for determining the direction of main tectonic stresses in a rock massif, including measurement of azimuths and angles of incidence of cracks in the massif and separation of cracks, systems In order to improve the accuracy of the determination, the value of crack opening is additionally measured at two height levels, the value of the class of large cracks in each system is determined for each level as the ratio of the number of cracks with the opening value above the average for this system to the total number cracks in the system, determine the ratio of the values of the class of large cracks of the upper level to the lower one for each system of cracks and, comparing the systems in pairs, find the interval of possible values for each combination of the two systems s azimuth / Sjj main tectonic stresses from the expressions (5 "- 180 °) 2 / (/} '+ d') prirr p ,; FT + Pp) 2rs (Pt P "+" 80). where | iri and rt are the azimuths of the strike of the crack systems, respectively, with a smaller and larger ratio, a class of large cracks of two height levels, and the direction of the main tectonic stress b is determined by the value of the azimug, satisfying each of the intervals found.