RU1836630C - Samples corrosion testing device - Google Patents

Abstract

The invention relates to testing equipment and can be used in devices for life-testing of metals for stress corrosion. The aim of the invention is to increase the accuracy of the test by maintaining a predetermined concentration of the corrosive medium. The device consists of a housing connected to a cover 2. A test tube element 3 is installed in the housing 1. A collector 6 is made in the cover 2 and is connected to a tube 7, which is a refrigerator. A heater 4 is installed at the bottom of the housing 1. The housing 1 is in communication with the chamber 10, inside which the chamber 11 is made, connected through an opening 12 to the internal cavity of the housing 1 and filled with a corrosive medium of increased concentration. An adjustable heater 13 is installed on the outer surface of the chamber 10, and the inner cavity 11 is filled with porous material 14. When the heater is turned on, the temperature and pressure in the cavity 11 increase and the corrosive solution of increased concentration through the hole 12 enters the inner cavity of the housing 1, which ensures that the concentration of the corrosion solution during the test. 1 ill. U s 00 s o o 00 o s

Description

The invention relates to testing equipment and can be used in devices for life-testing of metals for stress corrosion.

The purpose of the invention is to increase the accuracy of tests by maintaining a given concentration of a corrosive medium.

The drawing schematically shows a General view of the device for testing samples for corrosion.

i The device consists of a casing 1 connected to a cover 2. A test tube element 3 is installed in the casing 1. A heater 4 is installed at the bottom of the casing 1. The test element 3 is mounted on the bottom of the casing 1 and sealed in the cover 2 with an oil seal 5. The cover 2 is made a manifold 6 connected to a tube 7, which is a refrigerator. The collector 6 is connected to the inlet pipe 8 and the cooling pipe outlet 9.

A chamber 10 is connected with the housing 1, inside which a cavity 11 is made, connected through an opening 12 to the inner cavity of the housing 1. An adjustable heating element 13 is installed on the outer surface of the chamber 10, and the inner cavity 11 is filled with porous material 14. In addition to this, a sensor is installed on the side surface of the housing 15 measuring the concentration of corrosive medium 16 poured into the internal cavity of the housing 1.

The device operates as follows.

When heater 4 is turned on, sample 3 heats up to the boiling point of the corrosive medium, and salt deposits form on the surface of sample 3. The heated and partially evaporated corrosive medium 16 rises and condenses on the pipe 7 of the refrigerator. Next, the condensate flows down. Due to the deposition of salts on the sample and on the core

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pus in the region of the phase separation level, the salt concentration in the corrosive medium decreases, which is detected by the sensor 15. When the salt concentration in the corrosive medium decreases below a predetermined value, the corrosive medium of increased concentration located in the cavity 11 is heated. With increasing temperature, the density of the medium in the cavity 11 is reduced and therefore, when the corrosive medium (water with salt solution) expands, taking into account its incompressibility, it expires from the cavity 11 through the hole 12 into the internal cavity of the housing 1. Then ontsentratsi corrosive environment in the housing 1 is increased and the signal of the sensor 15 at the given concentration of the corrosive medium solution 16 is shut down a controlled heating element 13.

In this way, a predetermined concentration of the corrosive medium during the test is ensured and their accuracy is improved.

Claims (1)

SUMMARY OF THE INVENTION A device for testing corrosion samples, comprising a housing with a lid filled with an aqueous solution of salt, a heater installed at the bottom of the housing, a refrigerator mounted at the housing lid, an additional chamber hydraulically connected to the housing cavity, characterized in that in order to improve the accuracy of tests by maintaining a given concentration of the corrosive medium, the additional chamber is filled with a solution, the salt concentration of which is higher than in the housing, and the device is equipped with a concentration sensor installed in the housing and electrically connected to the heater of the additional chamber.