SU1453226A1 - Method of forming crack in specimen with notch - Google Patents

Abstract

The invention relates to a testing technique and can be used to form a crack in a notched specimen. The gel of the invention is to improve the accuracy of the formation of cracks of a given size. A notched specimen is used which is suitable for wedging. For example, with a notch having a V-shape. The sample is placed in a device that limits the amount of deformation of the sample in the direction perpendicular to the notch plane. . The incision is statically wedged, with sample deformation being limited. By changing the constraints, the stress state at the apex of the notch may change and, consequently, the condition for the formation of a crack. In this way, the length of the crack formed from the tip of the notch is adjusted. During the wedging process, the restriction on the deformation of the specimen in the direction perpendicular to the notch plane is gradually removed. Thus, it is possible to increase the deformation of the sample in the specified direction, first until the moment of crack formation, and then by the value corresponding to the crack jump for a given length. In the case when a crack is formed in a sample of a plate of material, the zone of formation and propagation of a crack is precooled before splitting before the temperature of local plasticity of the material during cracking. 1 hp f-ly. SL

Description

The invention relates to a testing technique and can be used to form a crack in a notched specimen.

The purpose of the invention is to improve the accuracy of the formation of cracks of a given size.

The method is carried out as follows.

A notched specimen is used which is suitable for wedging, for example with a notch having a V-shape.

The sample is placed in a device that limits the amount of deformation of the sample in the direction perpendicular to the notch plane, for example, using rigid support elements.

The notch is statically wedged, while the deformation of the sample is limited. Due to the change in the constraints, the stress state at the apex of the notch may change and, as a result, the condition of cracking. Thus, the length of the crack formed from the tip of the notch is adjusted. For this c. the wedging process gradually removes the restriction on the deformation of the specimen in the direction perpendicular to the notch plane. For example, they increase the distance between rigid support elements.

Thus, it is possible to increase the deformation of the specimen in the indicated direction, first up to the moment of the formation of a crack, and then by the amount corresponding to a jump in the crack by a given length,.

In the case when a crack is formed in a sample of plastic material, a zone of formation and propagation of a crack is pre-cooled before splitting before temperature.

local plasticity of the material during cracking.

Example. Two-console samples of 6.5 mm thick deformed molybdenum powder are tested. The stiffness of the supporting elements is 10 Kn / m. Cooling is carried out with liquid nitrogen to. The wedging force is 5-10 And, with the 3rd-cracked length of 12,5i + 0,3 mm. The obtained results confirm the calculated values of the average design load of the crack opening 3030 N, the offset of the notch banks 4.2–10 m, and the rigidity of the limiting device 0.8 × 0 Kn / m.

Claims (2)

1. A method of forming a crack in a notched sample, through which a notch is statically wedged to form a crack from the notch tip, and the length of the cracks formed is controlled by changing the stress state at the notch tip, which is wedged to increase the accuracy of cracks of a given size. the specimen is carried out while limiting the amount of specimen deformation in the direction perpendicular to the notch plane, while in the process of wedging, the restriction is gradually lifted and allowed to increase e deformation of the sample in said first direction prior to formation of cracks, and then an amount corresponding to the crack jump to a predetermined length. . 2. The method according to claim 1, distinguishing from 10 to 1 with the fact that the zone of formation and propagation of a crack is precooled prior to wedging below the temperature of local plasticity of the material during cracking.