SU1280486A1 - Method of fixing elongated elastic specimens when performing tensile testing - Google Patents

Abstract

This invention relates to a testing technique. The aim of the invention is to increase the reliability of fastening samples 5 of a material with a shape memory effect by bending it onto the mating undulating bearing surfaces of the clamping jaws 3 and 4 and transferring the material of sample 5 to the martensitic phase. The gripping portion of the sample 5 is placed between the support surfaces of the clamping jaws 3 and 4. Bend around the sample 5 around the jaw 3 and form a loop. A preload is applied to the sample 5, while the sponge 3 moves and a part of the loop is clamped between the wedge portions of the groove 2 and the sponge 3, and the supporting undulating surfaces of the sponges 3 and 4 are closed, and the sample 5 bends along the matching surfaces R, and Rj. When sample 5 bends, stresses arise in its material, the magnitude of which exceeds the required level for the material to enter the martensitic phase, which is characterized by the self-strengthening of the material. A predetermined load P is applied to sample 5 and the test is carried out. 4 il. // - / (L of Fig. 2

Description

The invention relates to a testing technique, in particular to methods for attaching samples.

The aim of the invention is to increase the reliability of fastening the samples from the material with the shape memory effect due to the deformation of the sample loop section by bending it to form stresses in the deformable section exceeding the value of the voltage of the sample material transfer to the martensitic phase.

Figure 1 shows the capture, general view; figure 2 - section aa in figure 1; fig.Z - the same, in the initial position; figure 4 - the same, in the working position.

The grip includes a housing 1 with shoulder (not shown) for attachment to the bodies of a testing machine (not shown). In the housing 1, there is a blind wedge groove 2, in which the wedge clamping jaws 3 and 4 are placed with undulating support surfaces (not indicated), while the sample 5 encloses the clamping jaw 3, forming a loop around it. The mating radii R, and R2 of the undulating bearing surfaces of the clamping jaws 3 and 4 can be made equal to each other. The clamping jaws 3 and 4 in the groove 2 of the housing 1 are installed between the plates 6 and 7, made in the shape of the groove 2, which ensure the centering of the sample 5 relative to the axis of application of the load and are fixed in the groove 2 by the cover 8, which is attached to the housing 1 by screws 9. The reciprocal position clamping jaws 3 and 4 with respect to each other and groove 2 is provided with screws 10.

The method of fastening extended flexible specimens in a tensile test is carried out as follows.

The gripping portion of the sample 5 is placed between the support surfaces of the wedge jaws 3 and 4 and bends around the clamping jaw 3, forming a loop around it, which is partially located between the wedge section of the groove 2 and the wedge section of the clamping jaw

3. Tension of the sample 5, while the clamping jaw 3 moves in the direction of application of force and clamps the loop section of the sample 5, placed

between the wedge portions of the groove 2 and the jaw 3. Increase the applied load, while the loop portion of the sample 5 located between the undulating supporting surfaces of the jaws

3 and 4 is bent along the mating radii R and the stresses arising from this in sample 5 made of a material with a shape memory effect cause a magnitude transformation, characterized by a restructuring of the lattice and a sharp self-hardening of the material, and the fibers of sample 5 are stretched or compressed on the surface R, on the surface Rj, on the contrary, will be compressed or stretched. This alternating two-step self-hardening of sample 5 over the wave-shaped support surfaces of sponges 3 and 4, due to the shape of the mating surface, provides reliable fastening of the sample 5 and saves the material of the test sample 5, since it does not need to be wound on the clamping sponge 3 several times to increase the surface of friction . A predetermined load is then applied to sample 5 and tested.

5 Formula I inventions

The method of fastening extended flexible specimens in a tensile test is that the gripping portion of the specimen is placed between the support surfaces of the wedge clamps with a loop to form around one of the inserts, characterized in that in order to increase the reliability of the specimens from the material with the shape memory effect, deform the sample loop section by bending before its material passes into the martensitic phase, and inserts having wave-shaped support elements are used as clamping inserts surface.

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Fig.Z

Claims (1)

Claim I The method of fastening extended flexible samples in a tensile test, namely, that the gripping part of the sample is placed between the supporting surfaces of the wedge clamping inserts with the formation of a loop around one of the inserts, characterized in that, in order to increase reliability when testing samples from a material with a memory effect forms, deform the portion of the loop of the sample by bending until its material enters the martensitic phase, and inserts having wave-shaped supporting surfaces are used as clamping inserts STI. figure 1 Fig. 3 d ~ d in