SU1375989A1 - Method of testing fragile materials for compression - Google Patents

Abstract

The invention relates to a testing technique and can be used to obtain a complete with a downward branch of the deformation diagram and the destruction of fragile materials such as cement stone, concrete, etc. To simplify and reduce the energy intensity of the tests, the test sample 3 is compressed between press plates 1 and 2 with an elastic element 4 in the form of variable compliance brackets. The elasticity of the elastic element 4 at the beginning of the test is chosen from the condition of the liver of a positive derivative of the strain on sample 3, and after the main crack in sample 3 increases the elasticity of the elastic element 4 by moving it in the plane P parallel to the plates 1 and 2 of the press. 3 il. F

Description

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The invention relates to a testing technique and can be used to obtain a complete with a downward branch of the deformation diagram and the destruction of fragile materials such as cement stone, concrete, etc.

The purpose of the invention is to simplify and reduce the energy intensity of testing fragile materials for compression.

Fig. 1 shows a test circuit for the initial loading stage; in fig. 2 is the same after the formation of a main crack in the sample; in FIG. 3 is a stress test chart.

The method is carried out as follows.

Between the plates 1 and 2 of the press set the sample 3 and the elastic element 4 in the form of a bracket, which is placed between the lugs 5 and 6. The elastic element 4 has a variable flexibility due to the variable section of the consoles 7 and 8.

The flexibility of the elastic element at the beginning of the test (Fig. 1) is selected from the condition of providing a positive value of the derivative force for the deformation of the sample 3 (Fig. 3, section OA). After the appearance of the main crack in the sample 3, the elasticity of the elastic element 4 is increased by moving it with the actuator 9 in the plane P parallel to the plates 1 and 2 of the press.

Behind. the expense of loading the sample at the initial stage with a low compliance of the elastic element 4 ensures stable deformation and eliminates the spontaneous destruction of the sample 3.

Increasing the elasticity of the elastic element 4 after the formation of the main crack provides a reduction in the required maximum press force to complete the crushing process as compared to the prototype (Fig. 3), which ultimately reduces the energy intensity of the test. I

Simplification of testing is achieved 5 by eliminating the need for repeated loading of identical specimens with various elastic properties of the elastic element, as is necessary in the prototype.

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Invention Formula

A method for testing brittle materials in compression, in which a test specimen and an elastic element are jointly compressed between the press plate and the elastic element in the form of a variable compliance bracket before the specimen is destroyed, characterized in that, in order to simplify and reduce the energy intensity of the tests, the elastic element is at the beginning of the test choose from the condition of providing a positive value of the derivative force for the deformation of the sample, and after the appearance of the main crack in the sample, increase the elasticity of the elastic element by moving It in a plane parallel to the press plates.

Yasmiye

iris (prototype 1

Hatpyna on / ..

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Load dprtsgao element (protwtal)

Claims (1)

Claim A method for testing brittle materials under compression, in which a test sample and an elastic element are pressed together between the press plates in the form of a variable-response bracket to fracture the sample, characterized in that, in order to simplify and reduce the energy intensity of the tests, the elastic-element flexibility at the beginning of the test is selected from conditions for ensuring a positive value of the derivative of the effort to deform the sample, and after the appearance of a main crack in the sample, increase the compliance of the elastic element by moving it to plane parallel to the press plates.