SU1183861A1 - Method of determining effect of metal porosity on its compression creep - Google Patents

Abstract

METHOD OF DETERMINING EFFECT OF POROSITY OF MATERIAL FOR ITS creep in compression, comprising that the material samples with different initial porosity Experiencing a simple aftereffect recorded deformation and creep rate of strain and it is judged on the effect of the porosity of the material at its creep, wherein that, in order to simplify the determination, two samples are tested, the deformation and the creep deformation rate at an unspecified creep stage are recorded, the test for simple the sample with the lower initial porosity is interrupted and its porosity is determined, the test for simple aftereffect of another sample is continued until the sample reaches porosity equal to the initial one (L porosity of the sample whose test was interrupted, and creep is determined based on the results obtained.

Description

The invention relates to the study of the strength properties of a material, in particular, to methods for determining the effect of the porosity of materials on their creep under compression. The purpose of the invention is to simplify the determination of the effect of the porosity of a material on its creep. The method is carried out as follows. Two samples A and B with different initial porosities, respectively, PD and p, where PD-tII, are tested, for example, by compression to a simple aftereffect under identical conditions. The creep strain and its velocity are continuously measured. During the compression test, the porosity of the material is reduced. At a given time point tj, when the accumulated creep deformation of the samples significantly exceeds the error of its measurement, record the creep rates reached, R. and Pjj, respectively, test the sample A with a lower porosity and interrupt it. A. 6, From the values of PI, PC and P A, the test time tg of sample B with a larger porous volume, t t, is determined by calculation. The time tj is determined before sample B reaches the initial porosity PD of sample A. MoAno 118 12 also determine the time t Y before sample B reaches porosity P, sample L, but in this case the time for testing the sample will be longer. The test of specimen B is carried out during the time ty with registration of the creep pattern. The obtained data is used to assess the effect of the porosity of the material on its creep under compression in the range of porosity from the right to the last time tj. Similarly, a test can be performed on: stretching, equivalent to compression with the opposite sign. Example. Samples made according to the same technology, samples from A, with initial porosities P | 6 and P 15%. Sample sizes: diameter 6 mm, height 8 mm, test temperature, voltage 40 MPa, vacuum I-IO Pa. Base porosities Pd and P and porosity Pd are measured by hydrostatic weighing. Test sample A is interrupted after 2 hours at a porosity of 5%. The creep rate at this point is Rd 1.7-10-2 / c jp 0.69 1 / H. The time t is 7 hours. The effect of the current porosity on the creep, the honor was found in the interval P (4.515)%.

Claims (1)

A METHOD FOR DETERMINING THE INFLUENCE OF MATERIAL POROSITY ON ITS CREEP IN COMPRESSION, namely, that samples of a material with different initial porosities are tested for a simple aftereffect, the deformation and creep strain rate are recorded and they are used to judge the effect of material porosity on its creep, characterized in that in order to simplify the determination, two samples are tested, the strain and creep strain rate are recorded at an unsteady creep stage, at a given point in time, a test for idle time after the sample with a lower initial porosity is interrupted and its porosity is determined, the simple aftereffect test of another sample is continued until the sample reaches a porosity equal to the initial porosity of the sample whose test was interrupted, and the effect of the material porosity on its creep is determined taking into account the results obtained . 1 1183861 2