DD156919A1 - CORROSION INHIBITOR AS AN ADDITION TO TECHNICAL MAGNESIUM CHLORIDE SOLUTIONS - Google Patents

Abstract

The invention relates to the inhibition of caused by technical magnesium chloride solutions metal corrosion on motor vehicles. The goal is to produce in their aggressiveness against metallic components of motor vehicles strongly inhibited technical magnesium chloride solutions that affect the coefficient of friction between the wheels of motor vehicles and the road no more negative than conventional inhibitor-free technical magnesium chloride solutions. It is therefore the object of a corrosion inhibitor with high protection, especially against aluminum, its alloys and Baustaehlen in technical magnesium chloride solutions without negative impact on o.g. To find friction coefficient. According to the invention, the corrosion inhibitor consisting of inorganic and organic inhibitor components is added to the technical magnesium chloride solutions in such an amount that they contain at least 0.03 mass% alkali metal nitrite, at least 0.15 mass% secondary alkali metal phosphate and at least 0.06 mass% hydroxy alkyl protein ,

Description

226805 2

Title of the invention

Corrosion inhibitor as an additive for technical magnesium chloride solutions

• Anwendungsgebi et the invention

The invention relates to the inhibition of corrosion on metallic components of motor vehicles caused by the technical magnesium chloride solutions used as de-icing agents on roads for antifreeze on roads.

Characteristic of the Known Technical Solutions For technical magnesium chloride solutions, such as are used as thawing agents in road wintering service, DD patent 66 477 describes additives which greatly reduce the corrosiveness of the magnesium chloride solutions to aluminum. As inhibitors are proposed molasses, a waste product from the sugar industry, and a mixture of molasses and Grahamschem salt (sodium, Kaliumhexametaphospat). The disadvantage of the solutions described, however, is that after their application as thawing agents in the winter road service, the adhesion between the bathrooms of motor vehicles and the enteisten carriageways is not strong enough improved ·

Object of the invention

The aim of the invention is to produce in their aggressiveness towards aluminum, its alloys and other metals, especially structural steels, highly inhibited technical magnesium chloride solutions that do not reduce the Eeibwert between the cadres of motor vehicles and the roadways more than usual, not offset with corrosion inhibitors , technical magnesium chloride solutions ·

Explanation of the essence of the invention

The addition of molasses to technical magnesium chloride solutions lowers the adhesion between, the Bädera of the motor vehicle © and the roadway _& It is therefore the task of a such after the application of such solutions as thawing agent in a density mähr to be represented measure. For corrosion inhibitor su, the hutg as an additive in technical magnesiu & chloride Lösungea Onea high and the o _e g _e Material © before these solutions derea uad by getautes ice or "thawed snow © ensures atstaadimea dilutions without said

4-0 to negatively affect Keibwer-t

According to the invention, such a corrosion inhibitor consists of a mixture of inorganic and organic inhibitor components. The inorganic compounds are an alkali metal nitrite and a secondary alkali metal phosphate. The organic portion consists of a magnesium hydroxide solution. The technical magnesium chloride solutions to be used as thawing agents may be added to the corrosion inhibitor either as a mixture or in ounces in either solid or water-soluble form, in amounts such that these solutions are at least 0,03 Mass-f "Alkali" Dietallnitritj containing at least 0,15 mass% secondary alkali metal phosphate and at least 0,06 mass% Eydroxialkylproteia "As liydroxialky proteins are compounds to understand which by a reaction of appropriate aldehydes with the controlled hydrolytic degradation of proteins (ζ. Β * leather waste) resulting proteins are characterized by alkyl radicals having a carbon number of 1 to 6,

From ^ uh ^ in ^ ^ s at iel ^

The aggression of a magnesium chloride technical solution containing 0.7% by weight of dipotassium hydrogen phosphate, 0.12% of sodium hydroxide and 0.24% by weight of methylhydroxiprotein is increased in comparison to a technical magnesium chloride solution which is not mixed with the corrosion inhibitor so strong that

85 to 95% and compared to the aluminum alloy AlMgJ a 60 to 70% protection effect is achieved compared to a standard structural steel. It does not matter whether the relevant metal samples are immersed in the concentrated or in technical solutions of magnesium chloride diluted 1: 1 or 1:10 with water in a mixing ratio of 1: 1 or 1: 10, for 1000 hours of continuous or alternating immersion tests

 A comparison of the oil values determined with the Skid-Besistaace-Toster shows no differences between the inhibitors and the technical inhibitors of magnesium chloride mixed with corrosion inhibitors.

Claims (3)

1, corrosion inhibitor as an additive for technical magnesium chloride solutions, such as those used as thawing agents, for example, of inorganic and organic
Inhibitoranteilea consists, characterized in that as inorganic inhibitor shares an alkali metal nitrite and .Bin secondary Alkalimetallphosphafc and as organic
Inhibitor portion of a hydroxyalkyl protein can be used « 2 "corrosion inhibitor" according to item 1 _S, characterized in that the inhibitor component © in a technical magnesium chloride solution of the usual concentration for thawing point O at least O _S O3 mass% alkali metal nitrite, at least
0.15 mass% of secondary alkali metal phosphate and at least O ₅ , OS 3Vlasse ~% ^ droxialkylprotein be. 3 'corrosion inhibitor according to item 1, characterized in that the E ^ ydroxialkylprotein by alkyl radicals with a
Carbon number is characterized from 1 to 6 *