SU1693474A1 - Device for electrochemical corrosion investigations - Google Patents

Abstract

The invention relates to testing equipment, in particular to devices for microelectrochemical studies and microhardness measurement. The aim of the invention is to increase the reliability of measuring microhardness along with microelectrochemical studies of a sample under stress in a corrosive environment. The device contains a microscope 1, a cell 9 for the medium, an electrode 5 for microelectrochemical measurements and a microhardness meter. The microhardness meter consists of a rod 10 rigidly connected to the lens 2 of the microscope 1, a swivel bracket 13, in which the indenter 17c is mounted for movement with a weight 19. When the bracket 13 is rotated, the indent-op is set to a predetermined position along the axis of the lens 2 and in contact with the surface sample 8 is introduced into it under the action of the load 19 1 sludge.

Description

The invention relates to testing equipment, in particular to devices for microelectrochemical research and and measurement of n and I, m and to her mouth r.sti.

The aim of the invention is to increase the reliability when measuring microhardness at a given point on the surface of the sample.

The drawing shows a diagram of the device.

A device for micromechanoelectrochemical corrosion studies of material samples consists of a microscope Ί with a lens 2 ', on which a ring 3 is mounted, means for measuring electrochemical parameters in the form of a three-coordinate manipulator 4, a microelectrode 5 connected to an electric measuring device 6, fastening (grippers) 7, sample 8 with cell 9 for electrolyte and 'microhardness tester.

The microhardness meter consists of a rod 10, rigidly mounted on a ring 3, a rod 11, moved by the device 12 along the axis of the lens 2, a swing arm 13, a spring 14, an adjustment screw 15, a fixing screw 16 and an indenter 17 with a diamond pyramid. Swivel bracket. · 13 is connected to the rod 11 by means of a bearing 18 and a spring 14. At the free end of the indenter, a load 19 is installed, which interacts with the bracket.

The device operates as follows.

On the sample 8, mounted in the grips and loaded to the required voltage level, a microelectrochemical study is performed using a microscope 1 and a microelectrode 5 with a device 6. In this case, the microelectrode 5 is moved by a three-axis manipulator 4. The microelectrochemical study determines the most corrosive microzones on which the microhardness of the material is measured during the study. To do this, the center of the eyepiece with the grid is combined by moving the microscope 1 with the point under investigation. The handle 20 lowers the rod 1 so that the indenter 17 passes between the lens 2 and the cell 9. After that, the rotary bracket 13 is released from the mounting screw 16 and, under the action of the spring 14, is turned fully into the adjusting screw 15. The handle 20 lowers the rod 11 to touching the diamond on the surface of the studied microzone, a visible gap N is formed. In this position, the hardness tester is held for 5--10 s, during which the indenter, freely moving in the bracket hole, falls to the surface of sample 8, where the weight of the load 1 9. After this, the hardness tester returns to its original state in the reverse order. Using the eyepiece with a grid, the fingerprint is measured. Then, microelectrochemical research is continued or microhardness is determined in the next microzone.

The device allows microelectrochemical studies of samples of materials under stress in an aggressive environment, as well as measurements of the microhardness of the sample in several microzones without removing the sample from the testing machine.In addition, it is possible to study microelectrochemical processes during microplastic deformation of materials, i.e. near the point of indentation of the indenter into the investigated surface.

Claims (1)

Claim A device for electrochemical corrosion studies of a sample of material, containing a cell for an electrolyte, means for securing the sample, a microscope, and means for measuring the electrochemical and mechanical parameters of the sample, characterized in that, in order to increase reliability when measuring microhardness at a given point on the surface, the means for measuring mechanical parameters are made in in the form of a hardness tester containing a rod mounted on a microscope lens with the ability to move parallel to its axis, installed with the possibility the rotation with respect to the axis of the rod and fixation in a predetermined position of the bracket with an opening at the free end and an indenter passing through the opening of the bracket with a load rigidly fixed to the inoperative end, interacting with the bracket.