DE631137C - Process for the corrosion protection of metallic materials - Google Patents

Description

Process for the corrosion protection of metallic materials According to patent 629 592 you can achieve corrosion protection by using a protective metal built into the container to be protected and through suitable oxygen distribution a permanent protective current between the protective metal and the material to be protected achieved. The corrosion attack is thereby shifted to the protective metal, i. H. the Protective metal gradually goes into solution, while the parts to be protected do not be corroded.

In order to protect a metal through cathodic polarization, a minimum protective current strength to be determined from case to case by tests is required. So has z. BO B auer (notification from the Royal Materials Testing Office in Berlin-Lichterfelde West, 1 g18, 3rd and q. Booklet, p. 2o8) determined the minimum protective current strength for iron in saline solution (up to about the concentration of the North Sea water). It is 0.0000105 to 0.00006 amps per square centimeter.

In protection procedures that use an external power source, it is known and customary to set the desired minimum protective current strength by means of resistors, so as not to have unnecessary power consumption. According to the invention you can now go through suitable measures the amperage of the protective current obtained according to patent 629,592 reduce to the minimum protective current strength determined by tests. This measure ensures that the protective metal is not used up unnecessarily quickly will. In addition, one achieves that any undesired secondary reactions in the solution, which can occur with a stronger protective current, as completely as possible be suppressed.

So you can according to one embodiment of the invention, after one has established through a preliminary test how high the minimum protective current for the material to be protected must be the oxygen gradient required in patent 629,592 or oxidizing agent or reducing agent gradient between the protective metal and the material to be protected z. B. by regulating the amount of oxygen supplied in such a way set that the minimum protective current is reached or only slightly exceeded will.

According to a second embodiment of the invention, since the Adjustment of the oxygen gradient to a certain value in in some cases encounters technical difficulties, the regulation :; of the protective current can also be achieved by going into the external circuit - one or more @, e Resists.

One can also . both measures ..vez-r @@ agree by setting the coarse setting ' di2 'protective current achieved by regulating the oxygen supply and fine-tuning is regulated by a resistor in the external circuit.

By installing a measuring device in the external circuit one is able to determine the minimum protective current strength or to set a current that is a little higher than this for safety reasons.

Because of fluctuations in the conductivity of the flowing solution, temperature fluctuations and all other changes in operating conditions changes in amperage can occur, it is advisable to use a self-writer to record a To achieve a constant overview of the effectiveness of the device and when using it of resistances in the external circuit one or more of these can be changed design.

Claims (1)

PATENT CLAIM: Method according to patent 6z9 592, characterized in that a minimum protective current strength is maintained for corrosion protection by regulating the supply of oxidizing or reducing agent with simultaneous or independent switching of resistors in the external circuit.