SU676901A1 - Method of testing materials for stress relaxation - Google Patents

Description

one

The invention relates to the field of mechanical testing of materials, in particular to methods for testing materials for stress relaxation.

A known method for testing stress relaxation is that a material sample is deformed by loading, maintained at a given temperature and deformation, the loading is stopped, and the criteria for relaxation resistance of materials 1 are determined.

In this method, an annular sample with a slit is loaded with a wedge, inserted into the slit, and after the load is removed to change the width of the slit, it is judged on the relaxation resistance. Then the test is repeated.

The disadvantage of this method is the low accuracy due to dislocation hardening of the material, as well as the error in measuring the geometric dimensions.

The purpose of the invention is to improve accuracy.

To achieve this goal, after holding at a predetermined temperature, conditions are created that allow the specimen to remain deformed permanently after the load has ceased, and at the time of the load stoppage, the remaining stress in the specimen is measured and judged by the criteria of relaxation resistance.

The drawing shows a device for implementing the method when loading a bend ring sample.

It contains a loader in the form of a bolt 1 with a micrometer nut 2, support bars 3 and 4, a measuring strain gauge 5, pivotally connected to the bar 3,

the movable stop 6, on which the bar 4 is supported, the indicator 7 and the needle-shaped heating element 8.

The method is carried out as follows.

An annular sample 9 with a slot made of metal is deformed by loading, screwing the nut 2 onto the bolt I, inserted into the holes in the sample, to a predetermined deformation. Place the loaded sample in a heating device (not shown in the drawing) and maintain a predetermined time at a given temperature, and then cool. Then the sample is placed between the support bars.

3 and 4, in the slots of which the protruding heads of the bolt 1 and the nuts 2 are embedded, and by moving the stop 6, the gaps between the outer surface of the sample 9 and the support bars are removed. At the same time, no additional deformation of the sample is allowed, controlling the process through 1 measuring strain rod 5 according to indicator 7, which at the time of clearance elimination should show "O. After that, the loading of the sample is stopped, for example, inserting into the axial channel made in bolt 1, element 8, heating the bolt and thereby causing its thermal elongation. This allows the sample to be relieved from load connection, but due to support bars 3 and 4, it is in conditions that allow the sample to remain deformed permanently and measure the amount of stress remaining in the sample with a strain gauge 5. After that, the criteria of relaxation resistance are calculated using known formulas. Upon completion of the measurement, the heating element is removed, the bolt cools down, and the initial loading conditions are restored. The testing process is repeated again, after which a relaxation curve is constructed.

Claims (1)

Invention Formula The method of testing for stress relaxation, namely, that a material sample is deformed by loading, maintained at a given temperature and strain, stops loading, and criteria for relaxation resistance of materials are defined, characterized in that, in order to improve accuracy, after exposure at a given temperature, conditions are created to maintain the deformation of the specimen constant after the load has ceased, and at the moment of the load ceases, the stress in the specimen judged on the criteria x relaxation resistance. Sources of information taken into account in the examination 1. AM Borzdyk et al. Relaxation of stresses in metals and alloys. M., “Metallurgists, 1972, p. 86