SU1211629A1 - Method of determining strength of brittle materials - Google Patents

Abstract

The invention relates to a testing technique, in particular to the determination of the strength of samples of brittle materials. In order to expand the capabilities of the method by taking into account the state of the surface, two opaque polished samples are preliminarily tested. On one reference sample, the strength d is determined, and on the second, the creep strain. Then, the test specimen is loaded under the same conditions as the second reference specimen, its creep strain B is measured, and the strength d of the test specimen is determined by formula b e / e. (L with

Description

one

The invention relates to the study of the strength properties of materials, and specifically to methods for determining the strength of brittle materials.

The aim of the inventions is to expand the capabilities of the method by providing a determination of the strength of the material taking into account the state of the surface of the samples,

The method is carried out as follows.

Samples of brittle material with different surface conditions are used. First, two samples with a given surface condition are tested. Dp this surface of these two samples are polished. One of the samples is loaded to failure and its strength is determined d.

The second polished specimen is loaded in creep mode before the steady-state stage of relative elongation. The creep load is chosen in the order of (0.05-0.1) b in order to ensure that the steady-state creep stage is achieved in a short test time.

Then test the sample, the condition. The surface of which is unknown. This sample can be made, for example, from a structural element, the surface of which was exposed during operation.

external actions. The specimen is loaded in creep mode before the onset of a steady-state stage with loading parameters (temperature and stress) the same as the loading parameters of the second polished specimen. At the onset of the steady state creep stage, the change in the relative elongation of the sample is measured. The results of the creep test of the test specimen and the specimen with a polished surface are compared with each other, and for the same given or selected creep time, the ratio of the creep strain of the polished specimen to the strain C of the specimen is determined.

Strength (j of the specimen with the surface condition under investigation)

They are made according to the formula b 6/6, which takes into account the equality of the work expended in the destruction of samples with different states of their top five.

Example. Tested samples of 50x5 0.7 mm in steel C0115M. The relative elongation at loading was measured by the change

10 arrows deflection chain line cut foil or wire attached to the sample. The surfaces of the test specimen were polished and treated with M10 abrasive. The strength of the polished sample was 100 MPa. The creep time at a stress of 8 MPa was 200 hours. The creep deformations and f were 0, respectively.

20 0.4-10. The strength of the sample treated with abrasive, was 70 MPa.

Claims (1)

Invention Formula 25 A method for determining the strength of brittle materials, according to which two samples of a material are loaded and their deformations are recorded, while one sample is loaded with a specified load that does not cause destruction of the material, the second sample is loaded before destruction, and the strength of the material is determined from the results of testing both samples, I distinguish, u and with the fact that, in order to empower. Method, by providing a determination of the strength of the material, taking into account the state of the surface of the samples, the second sample of poly 40 strength and determine its strength d using the third same polished specimen and loading it with the same load as the first unpolished specimen, with this loading the first and third specimens are carried out in a creep mode before the steady stage, and the strength (; determined by the formula ; . d, where and - creep deformation, respectively, of the first and third samples. VNIIPI Order 635/48 Circulation 778 Subscription Lial ShSh Patent, Uzhgorod, Proektna St., 4 strength and determine its strength d 0 using the third same polished specimen and loading it with the same load as the first unpolished specimen, with this loading the first and third specimens are carried out in a creep mode before the steady stage, and the strength (; determined by the formula ; . d, where and - creep deformation, respectively, of the first and third samples.