DE1063871B - Process to prevent the corrosion of metals - Google Patents

Description

Procedure -for the prevention of corrosion of metals Pluorierte carbon and . fluorinated chlorinated hydrocarbons, e.g. B. as a refrigerant, heat transfer medium, fire extinguishing agent or propellant gas ffit. Aerosols, which are used, are more or less subject to hydrolysis in the presence of water. The hydrogen halide acids formed in this process can generally cause severe corrosion of the containers, structural elements, pipelines, etc. used.

around this: §ehwi . erigkelten- if possible '= avoid, one has these connections z. B. when used as a refrigerant or as a heat exchanger in heating systems so far strongly dried, but the ingress of humidity can rarely be completely avoided during assembly. When using fluorinated hydrocarbons or fluorinated chlorinated hydrocarbons as propellants for aerosols, it is very often not possible to avoid a water content in the active ingredient to be sprayed for reasons of the formulation.

These examples show, that is, the problem of the interaction between the fluorinated hydrocarbons or chlorinated hydrocarbons on the one hand and water on the other practically in all areas of application of these compounds exists.

It has now been found that the corrosion of metals which come into contact with refrigerants, fire extinguishing agents, heat transfer agents or liquefied propellants for aerosols based on fluorinated hydrocarbons or fluorinated chlorinated hydrocarbons in the presence of moisture, can be prevented or greatly delayed if Salts of alkyl sulfamidocarboxylic acids which contain at least one alkyl radical having at least 6 carbon atoms, optionally mixed with aliphatic hydrocarbons, are added. The substances active according to the invention are expediently added in concentrations of 0.05 to 2%, but smaller amounts which deviate therefrom can still give good results, just as larger amounts can also be used. As salts of the Alkylsulfamidocar, bonsäuren come z. B. the sodium, potassium, ammonium, mono-, di- and triethanolammonium salts in question.

It is already known that the inventively proposed compounds are Korrosionssehutzmittel for mineral oils or fatty oils, but it was not foreseen by the expert that an addition of these substances to refrigerants, heat transfer agents, fire extinguishing agents or verftüssigten propellants based on fluorinated There are also cleaning agents based on water-insoluble organic solvents, such as halogenated aliphatic hydrocarbons, are known which contain sulfamidocarboxylic acids with at least one aliphatic radical with at least 6 carbon atoms or their water-soluble salts. Because of the completely different requirements that have to be placed on cleaning agents, one could not conclude from this that the addition of the substances proposed according to the invention would also prevent the corrosion of metals during prolonged contact with water-containing fluorinated hydrocarbons or chlorinated hydrocarbons, which are used as refrigerants, heat transfer media , Fire extinguishing agents or liquefied propellants for aerosols were prevented.

As fluorinated hydrocarbons or fluorinated chlorinated hydrocarbons, which the substances proposed according to the invention as an additive for the prevention of Corrosion to metals can be added, for example: Fluorotrichloromethane, difluorodichloromethane, trifluorochloromethane, fluorodichloromethane, Difluorochloromethane, trifluoromethane, tetrafluorodichloroethane, trifluorotrichloroethane, Difluorotetrachloroethane, hexafluorodichloro-yclo'butane, difluorochlorobromomethane, difluorodibromomethane, Trifluorobromomethane, tetrafluorodibromoethane.

Example 1 A) A sanded and degreased iron sheet was placed in a mixture of 250 g of monofluorotrichloromethane and 100 g of water. After about 2 hours leh '-was ""an'- d #' i "Gr # if applicable UE-ch y e -a clear l # Öst- # Development at the Eisentle . ch -, ii, watch ,. and after The iron sheet was heavily rusted for 2 weeks. B) An iron sheet was ine according to A) in e "micro use of Monpfluortrichlun-nethane and water eeUt, -deT7- 0.197o - '# related'eTf- to monofluorotrichlor- methane), a product was added that, like was produced as follows: A fraction of aliphatic hydrocarbons that b, ice # ies 'the Si # ideg'range from 200 to 350' C possessed, was by` catalytische 1-iochdrudffiydrie- tion of unsaturated, A-ht # ll ## ri freed and used for Uin- #version in. Sglfochtöhcl # -, i # i7jf'Chlo-i and sulfur caoxyd, purpose moderate side radiation with short wavy light, b-eh-atidch -.- D-; ig-reaction body, the- Mainly # Monosulfoel (> ri # cle beside Disulfochlori- den tiiid not 'unig6 # ä ± iimi- aliphatic carbon Containing hydrogen, vin'd - #d with. Axnmoniak treated and the reaction product in the presence of alkali with Nfoncych-Icyressigsätire implemented and idli-Natrönlauü neutralized. A mixture consisting of from sodium alkylsulfamidoacetate, alkylsulf- imid # en, Kohlenwasg # en "x - the if necessary some water can be added. Ae, ii, e§err # Eisen e -eb would be the first after -6, Mä # aten. the first rose traces observed. This corrosion corresponded in, - their strength approximately to that according to example A) after 2 Stui # die-n.

Example 2 0.3 % of the substance described in Example 1, B) was added. After an exposure time of 6 months, the sheet iron was still metallically bright. No corrosion could be found on it.

Claims (1)

PATENT CLAIMS: 1. Use of salts of alkylsulfamidoearboxylic acids, which contain at least one alkyl radical with at least 6 carbon atoms, as -Additional-, e to fluorinated hydrocarbons or fluorinated chlorinated hydrocarbons, such as refrigerants, heat transfer agents, fire extinguishers and liquefied propellants, to prevent the Corrosion of metals in the presence-of. Water. # 2. The method according to claim 1, characterized in that the salts of alkylsulfamidocarboxylic acids are added in an amount of 0.05 to 2%. Considered publications: German patents nos. 905 303, 856 774.-