SU36125A1 - Method of protecting iron and steel from rusting - Google Patents

Description

Currently used methods of corrosion control, such as: polishing, varnishing, painting metals, coating with protective layers of other metals, coating with oxide films at high temperature, cathodic polarization, preparing special non-corrosive alloys, etc. or relatively expensive, or sometimes not reliable enough, such as polishing metals and simple burnishing of steel and iron. Attempts to reduce the cost of corrosion control are partly aimed at obtaining protective oxide and other films at high temperatures. These include Barf-Bower, Ruffing methods. Cosslett, Parker, et al. Recently, methods have also been proposed whereby it is possible to lower the temperature of producing an oxide film to 125 ° (cyoxide and barotoxide). It has also been proposed to use dilute sodium silicate solutions for corrosion protection.

In the proposed method, in order to obtain on the surface of iron and steel a protective film that protects against corrosion, a manganese-potassium salt is added to a solution of sodium silicate of a low concentration in an amount of 0.005-0.015 "/ o.

The composition of the bath in which the product is immersed depends on the desired qualities.

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the film, its thickness and color and varies with B: Water distilled from 99% to 99.90 / 6

The alkaline solution of sodium silicate Liquor natrii silicici, is added on MajSiOs from 0.1% / o to 1% of manganese-potassium salt, calculated on KMpO from 0.005% to 0.015%. The treatment is performed by immersing the metal in the solution and requires pre-cleaning the surface of iron and steel from rust, which is achieved mechanically or chemically. The surface of the metal when immersed should be smooth and shiny.

The processing temperature is room temperature (from 15 to 25 °), and the duration depends on the selected composition of the mixture, as well as on the desired film thickness and generally lasts from several hours to several days. After processing, the entire metal surface should be wiped dry.

The film formed, depending on its thickness, paints the surface of iron, due to interference effects (Newtonian rings), in different colors. The most beautiful color of the film is iridescent tide. The film can also be obtained so thin that it almost eludes visibility (transition to the ordinary passive state of iron).

When bending an iron plate, the film does not lag behind the surface of the iron and undergoes all the bending deformations.

A film of sufficient thickness, for example, rainbow colors, can withstand rusting from processing with distilled water. A drop of water dries on it at room temperature, does not form rust. Salt solutions gradually destroy the film. The film also withstands, in certain conditions, a test for iodine vapor. Thus, the film will resist the effects of rainwater and other precipitation, while giving iron and steel objects a beautiful appearance.

The proposed method of protection against rusting can be used for roofing iron, as well as for various small iron and steel objects (buttons, constipations, caskets, parts of weapons, etc.) in order to give them a beautiful appearance. Industrial fines are becoming more resistant to rust and therefore non-marking. The strap is not erased from the friction of the fabric.

The subject matter of the invention.

A method of preventing iron and steel from rusting by treating it with an alkaline solution of sodium silicate of low concentration, characterized in that an amount of 0.005-0 is added to the sodium silicate solution in an amount of 0.005-0 in order to produce it on the surface. metal protective film that protects it from corrosion.