SU1016508A1 - Method of determining tensile resistance of hard rock mass - Google Patents

Abstract

1. METHOD FOR DETERMINING THE RESISTANCE TO STRETCHING THE ROCK MASSIVE, including contouring a part of the array with a slit, loading it, and determining the breaking load, characterized in that, in order to increase the reliability of the results of resistance determination while reducing the cost of research, the contouring slit is developed at an angle to the surface of the array to reduce the resistance of the specimen to the massif to the massif, then the contour of the resistance will decrease. pyramids with a large base on the surface of the array, and the loading of the contour part is carried out until echennoy pyramid, then the strength and the separation area is judged on the magnitude of resistance to stretching. f / o5 ate about 00

Description

The invention relates to the mining industry and construction, in particular, to a method for determining the resistance to stretching of a rock mass. Methods are known for determining the tensile strength of rocks at which rock specimens are tested for stretching. The disadvantages of these methods are the impossibility of transferring the results of the testing of specimens to samples of rock and a significant error in the results of laboratory tests. The closest in technical essence and the achieved result to the proposed method is a method for determining the tensile strength of rocks in natural conditions, including the contouring of part of the array with a slit, its loading and determining the breaking load 2. A disadvantage of the known method is the determination of tensile strength under bending, not axial resistance. The aim of the invention is to increase the reliability of the results of the determination of resistance while reducing the cost of research. This goal is achieved in that according to the method for determining the tensile strength of a rock massif, including the contouring of a part of the massif with a slit, its loading and the determination of breaking load, the contouring slit is developed at an angle to the surface of the massif to form a truncated pyramid with a large base along the surface of the massif, and the contouring parts are brought to separation from the massif on the area of the smaller base of the truncated pyramid, then, by force and area of separation, they judge the magnitude of the resistance to NIJ. FIG. 1 shows a contoured array, a longitudinal section; in fig. 2 - the same, in a perspective view. The method is carried out as follows. In a rocky massif, the flat cut-edge carving machine cuts 1, inclined toward the surface of the massif, before forming a truncated pyramid 2, with a large base on the massif surface. Flat jacks 3 are placed in the cuts made, which load the walls of the sawn cracks 1. Under the influence of the load from the jacks, its component arises, directed parallel to the symmetry axis of the pyramid. This load causes axial stretching of the contour portion of the array. The strength and area of separation is judged on the magnitude of the resistance to stretching. The use of this method for determining the tensile strength of a rock mass in comparison with the known value allows us to increase the reliability of measurement results and reduce the cost of research.

Claims (1)

1. METHOD FOR DETERMINING RESISTANCE TO STRETCHING A ROCK NOGO ARRAY, including contouring a part of the array with a slit, loading it and determining the breaking load, characterized in that, in order to increase the reliability of the results of determining the resistance while reducing the cost of research, a contouring gap is developed at an angle to the surface of the array to form a truncated pyramid with a large base on the surface massif, and loading of the contoured part is carried out until the massif is torn off according to the area of the smaller base of the truncated pyramid, then the strength and area of the separation are judged on Ichin tensile strength. FIG. f