SU970193A1 - Plant for material corrosion testing with periodic immersion into corrosive medium - Google Patents

Description

one

The invention relates to test equipment, in particular, to installations for the corrosion testing of materials during periodic immersion of a scientific research institute in an aggressive environment. - A known device for corrosion testing of materials during periodic diving into a corrosive environment, containing a chamber with corrosive medium, grips for attaching samples, a pull connected to the grips, and a device for moving the pull, made in the form of a solenoid, the core of which is is busy with l l.

The disadvantage of the installation lies in its limited functionality, which does not allow corrosion testing of samples in boiling conditions and condensation of the medium.

The purpose of the invention is to extend the functionality by. ensure the conduct of corrosive

tests under conditions of condensation and boiling aggressive media.

This goal is achieved by the fact that the installation for corrosion testing of materials during periodic immersion in an aggressive environment, contains a chamber with an aggressive environment, grips for attaching samples, a pull connected to the grips, and a device for moving the pull, is provided with an additional vertical chamber communicated with the main one, with the heater installed on the bottom of the additional chamber, and the device for moving the gi Strongly vertical movement and connected to resiliently t goy-tight bond.

The drawing shows the scheme of the proposed installation.

The installation contains a vertical chamber 1, in the lower part of which a refrigerator 2 is located, in the upper part there is a heater 3. Inside the chamber 1, the grips 4 and 5 are located which are used to fasten the test samples 6 and are connected with a pull 7. An additional vertical chamber 8 communicated With the main chamber 1, the tube 9f is also connected by a tube 10 with a device 11 for maintaining the pressure of a corrosive medium. At the bottom 12 of the additional chamber 8, a heater 13 is installed, on which a cup 14 is installed upside-down, having the possibility of vertical movement and connected to the thrust 15. At the bottom of the cup I, whose weight slightly exceeds the weight of the grips 4 and 5 together with the samples 6, holes (not shown) to displace the aforementioned medium from it. The plugs 7 and 15 are placed inside the tube 16, the ends of which are attached respectively to the bottom 17 of the chamber 1 and to the bottom 12 of the additional chamber 8. The free space in the tube 16 between the ends of the strands 7 and 15 is filled with balls 18 made of a corrosion-resistant material. The installation works as follows.

Samples 6 to be tested are fixed in grips 4 and 5, which are mounted in the upper part of the chamber .1. The chamber 1 is partially filled with corrosive medium and the heater 3 is turned on to heat the samples 6 to a predetermined temperature, and after the samples 6 are heated, the heater 13 is turned on, which heats the corrosive medium in the cup 14 to boil. The vapors formed during boiling displace the liquid through the openings in the lower part of the glass 14, as a result of which the glass 14 moves to the upper part of the additional chamber 6, and the grippers 4 and 5 under the action of its high wing descend to the lower part of the chamber 1, in which the condensed aggressive environment where the formation of samples 6 is taking place, as a result of which the aggressive environment boils. After turning off the heater 13, a pair of aggressive liquid in the beaker 14 condenses, the fluid refills the beaker 14, as a result of which it is lowered onto. the bottom 12 of the additional chamber and moves the grippers 4 and 5 with samples 6 to the upper part of chamber 1. After a given number of heat shifts, the samples are removed from chamber 1, the corrosion rate is determined and the influence of heat shifts on the corrosion resistance of materials is judged by it.

The installation has wide functional capabilities that provide corrosion testing under conditions of condensation and boiling aggressive media during periodic immersion of test specimens into it.

Claims (1)

1. USSR author's certificate No. 150705, cl. G 01 N 17/00, 19b1 (prototype).