SU807122A1 - Method of strength testing of prizmatic specimens - Google Patents

Description

(54) METHOD FOR TESTING FOR STRENGTH OF PRISM SAMPLES

one

The invention relates to the mechanical testing of materials, in particular to methods for testing the strength of prismatic samples.

There is a known method for testing the strength of a material, which consists in using a sample consisting of the test material and the adapters fastened to it at the ends, and an external load is applied to the adapters il.

The disadvantage of this method is the impossibility of its use for fragile materials.

The closest in technical essence and the achieved result to the invention is a method for testing the strength of prismatic samples, which means that the sample is placed on the side with supports, cyclically bent to the formation of cracks and record the breaking load and the number of cycles before breaking G21.

The disadvantage of the method is the accuracy of the test, since during bending the material is loaded unevenly over the cross section of the body.

The aim of the invention is to improve the accuracy of the tests.

This goal is achieved by the fact that after each cycle the sample is rotated around its longitudinal axis and mounted on supports with the next facet.

The drawing shows a diagram of the device for implementing the method.

The device contains a base 1, levers 2 and 3, supports 4 and 5, rack

o b, electric drive 7, spindle screws 8, nuts 9, ball bearings 10, dynamometers 11. Opsf 4 is connected to the handle 12, on which there is a latch 13. The guides 14 are fastened

5 WITH RESIST b. Sample 15 consists of a working part, fastened with adapters 16 and 17, which are exposed to bending moment. The sample is installed on the side faces A and B in supports 4 and 5, through which the specimen is loaded with a bend. booming moment. In this case, the stress state in the sample is uniform in its length and corresponds to a pure bend.

For tested fragile materials, the use of adapters makes it possible to avoid local destruction of the material in the zone of external loading.

The load on the sample is transmitted through levers 2 and 3. The actuator 7 through the screws 8 and nuts 9 acts on the levers 2 and 3. The upper parts of the levers, through the ball bearings 10, act on dynamometers 11 mounted on a rack.

b.

The loading force is increased to a predetermined value, the maximum stresses being created in facets A and B. then the load is removed, the sample is turned around its longitudinal axis and set on supports by the next facet. The rotation is performed by the handle 12, and the new position of the specimen is fixed by the latch 13. Then the loading is repeated. This allows you to more fully load the volume of material being depleted and find the zones where cracks are formed.

Claims (1)

Claim method for testing the strength of prismatic specimens, JB The sample is installed on the side with the side face, cyclically bent to crack formation, and the breaking load and the number of cycles to fracture are recorded, characterized in that, in order to improve the test accuracy, after each cycle the sample is turned around its longitudinal axis and set to support the next facet. Sources of information taken into account in the examination 15 1. Methodical recommendations on shrinkage and creep studies. M., NIIZHB. 31-34. 2 Zolotarevskiy V.S. Mechanical tests and properties of metals. M., metallurgists, 1974, p. 182-187 (prototype). and 1Z .