SU800807A1 - Method of investigating - Google Patents

Description

The invention relates to tests of materials, and in particular to methods for studying the resistance of materials of gas pipelines to brittle fracture.

A method is known studies accompanied ⁵ tovlyaemosti brittle fracture materials on which the sample is subjected to shock impact tester bending, change of dynamic force recorded over time, determine operation nucleation ^and propagation of cracks ⁰ at which judge resistance to brittle fracture materials [1].

The disadvantage of this method is the impossibility of a reliable assessment of the suitability of the material for the gas pipeline.

The closest to the proposed method for studying the resistance of main gas pipeline materials to brittle fracture, by which a specimen is subjected to impact bending with tension on a pile with a falling load, the crack propagation rate and speed are determined by comparing one of these parameters with a crack propagation parameter corresponding to the sound propagation velocity in gas, evaluate the resistance of the material to brittle fracture.

The work and the speed of propagation of the cracks are determined during the test under various dynamic conditions. According to the obtained parameters, by means of interpolation or extrapolation, the crack propagation work is found corresponding to the propagation velocity ί of sound c. gas. By comparing the found magnitude of the crack propagation work with the work allowed by the reliability condition, a conclusion is drawn on the suitability of the material for a given gas pipeline [2j.

The disadvantage of this method is the considerable complexity, since it is required to test figuratively under different dynamic modes, as well as the lack of exact accuracy due to interpolation or extrapolation of the test results.

The purpose of the invention is to reduce the complexity and increase the accuracy of the research results. _;

This circuit is achieved in that the work and crack propagation rate are determined only when setting up the driver, which is carried out by changing the height of the load and the height of the obraz 1 so that the crack propagation velocity is equal to the speed of sound propagation in the transported gas, and the crack propagation work was it is equal to the gas pipeline reliability admissible under the condition, when testing a sample, only the speed or only the crack propagation work is determined.

The method is implemented as follows. 2ι

By changing the drop height of the load and the height of the sample so that the crack propagation velocity Vp is equal to the sound propagation velocity Vjfc in the transported gas, and the spreading work С1р: crack cracking is equal to the allowable work Op according to the gas pipeline reliability condition, the pile driver is pre-configured, determining and work and crack propagation speed Vp. In the process of testing the sample from the material that is supposed to be used for the gas pipeline, Only the velocity Vp or only the work (^ crack propagation is determined. By comparing one of these parameters with a parameter — 35 meter of crack propagation corresponding to the velocity Vjfc of sound propagation in the gas, they evaluate the resistance of the material to brittle fracture. From this it follows that if Vp <Vj (> or ctp »Op, then ** 0 the material is suitable for a gas pipeline, and the material for which Ur> 7 ₃ bilOr <C1p is unsuitable. As a parameter, by which I evaluate t the resistance of the material to brittle fracture, you can choose 45 the speed Vp of the propagation of cracks or work ar.

The decrease in the complexity of the method consists in reducing the number of tests of samples when determining the suitability of 50 material for a gas pipeline, as well as by reducing the defined parameters of crack propagation, and increasing the accuracy by eliminating interpolation or extrapolation of test results.

Claims (1)

Claim A method for studying the resistance of materials of main gas pipelines to brittle fracture, according to which a specimen is subjected to shock bending with tensile impact with a falling load, the crack propagation rate and speed are determined, and one of these parameters is compared with the crack propagation parameter corresponding to the sound propagation velocity in the gas, the material resistance is evaluated brittle fracture, distinguished by the fact that, in order to reduce the complexity and improve the accuracy of the research results, p The botton and crack propagation rate are determined only when tuning the driver, which is carried out by changing the height of the load and the height of the sample so that the crack propagation velocity is equal to the speed of sound propagation in the transported gas, and the crack propagation work is equal to the allowable condition for the reliability of the gas pipeline, when testing figuratively determine only the speed or only the crack propagation work.