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US1941750A - Method of thermically coating objects of iron or steel with aluminum or aluminum alloy - Google Patents

Method of thermically coating objects of iron or steel with aluminum or aluminum alloy
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US1941750A
US1941750AUS508378AUS50837831AUS1941750AUS 1941750 AUS1941750 AUS 1941750AUS 508378 AUS508378 AUS 508378AUS 50837831 AUS50837831 AUS 50837831AUS 1941750 AUS1941750 AUS 1941750A
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aluminum
iron
objects
bath
thermically
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US508378A
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Johansson Erik Harry Eugen
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Patented Jan. 2, 1934 UNITED STATES METHOD OF THERMICALLY C O A T I N OBJECTS OF IRON OR STEEL WITH ALU- MINUM OR ALUMINUM ALLOY Erik Harry Eugen Johansson, Stockholm, Sweden No Drawing.
Application January 12, 1931, 1
Serial No. 508,378, and in Sweden February 17,
5 Claims. (01'. 91-702) This invention relates to a method of thermically coating objects of iron or steel with aluminum or aluminum alloy by immersing the objects into a bath of molten aluminum or aluminum 5 alloy, flux being used which facilitates the formation of the coating. In order to obtain by this method a uniform coating adhering at all points and forming a real alloy with the underlying metal it is of great importance that the surfaces of the objects are free from all impurities and are not covered by any dissociated iron or coal particles.
For this purpose the objects are immersed, according to the invention, into a melted flux bath 16 containing CaClz, ZnCla, an alkali chlorid and an alkali aluminum fluorid before they are transmitted to the metal bath after having first been mechanically cleaned to remove fatty substances, oxides and slag, or having been subjected to 20 mordanting in diluted acid and, if necessary, having also been subjected to another treatment for volatilizing superficial impurities. The proportions of the aibstances forming the melted flux bath may lie within the following limits:
2-50 parts by weight of anhydrous CaCh 1-80 parts by weight of anhydrous KCl 55-20 by weight of anhydrous NaCl 5-6 by weight of anhydrous NaaAlFs 5-30 parts by weight of anhydrous ZnClr.
While the objects are immersed in the melted flux bath they may be kept in rotation or stirred in another manner or they may be subjected to the action of brushes or other mechanical means for facilitating the removing of the dust particles.
The melted flux bath may have such a temperature that the objects contained therein will be heated so much that they can be transmittedto the molten bath of aluminum or aluminum alloy without'their temperature sinking beneath the melting-point of the said bath.
The treatment for volatilizing impurities which may precede the immersing into the melted flux bath consists preferably in that the objects are dipped into a melt of NH4Cl/ZnCh or they are immersed into an aqueous solution of the said double salt, and then they are dried by heating. By the heating the chloride is transformed. with oxidic impurities on the surfaces of the objects, into impurities which volatilize, and the objects will be coated by .an anhydrous layer of salt which preserves against oxidation. Iron and coal particles which are dissociated on the surfaces of the objects by this treatment are removed by the subsequent immersing into the melted flux bath. Instead of NHlOl/ZtiCl: another salt may be used which forms volatile compounds with the said oxides and produces the coating of the objects with a coherent layer 00 of salt preserving against oxidation.
Having now described my invention, what I claim as new and desire to secure by Letters Patent is:
1. The method of plating ferrous objects with 66 aluminum or alloy containing aluminum as the principal constituent, which comprmes cleaning the object to remove fatty substances, oxides and slag, immersing the object in a molten flux bath which contains calcium chloride, an alkali chlo- 70 ride, zinc chloride and an alkali aluminum fluoride, heating the flux bath, and transferring the object to the metal bath the temperature of which is about the melting point of the metal,
the heating of the flux bath being carried to such a degree that the transferring of the object from the flux bath to the metal bath can be carried out without having the temperature of the object fall below the melting point of the metal bath.
2. The method set forth in claim 1, which includes the step of stirring the object while it is immersed in theflux bath.
3. The method set forth in claim 1, wherein the object, before being immersed in the flux 86 bath, is immersed in a solution of a salt which forms volatile compounds with the oxygen impurities occurring on the surface of the object and which produces by heating a coherent layer of salt on the surface'of the object.
4. The method set forth in claim 1', wherein the flux bath contains the following substances:
2-50 parts by weight of anhydrous CaCl:
1-30 parts by weight of anhydrous KC! Vz-20 parts by weight of anhydrous NaCl 5-5 parts by weight of anhydrous NuAll'u %30 parts by weight of anhydrous ZnClr.
5. A flux for use in plating ferrous with aluminum or aluminum alloy, which consists of the following substances:
ERIK HARRY EUGEN JOHANSSON.
US508378A1930-02-171931-01-12Method of thermically coating objects of iron or steel with aluminum or aluminum alloyExpired - LifetimeUS1941750A (en)

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Cited By (8)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US2473004A (en)*1945-06-021949-06-14Du PontGalvanizing flux
US2544671A (en)*1948-02-121951-03-13Gen Motors CorpMethod of forming composite products consisting of ferrous metal and aluminum or aluminum-base alloy
US2569097A (en)*1951-02-201951-09-25Gen Motors CorpMethod of coating ferrous metal with aluminum or an aluminum alloy
US2671737A (en)*1950-10-101954-03-09Chrysler CorpAluminum coating process and flux
US2723449A (en)*1954-04-231955-11-15Aluminum Co Of AmericaMethod of dip brazing aluminous metal members
US2847321A (en)*1945-03-161958-08-12Lowell D EubankMetal surface treatment
US2872348A (en)*1946-05-061959-02-03Lowell D EubankFused salt method for coating uranium with a metal
US3244551A (en)*1965-02-241966-04-05Chemical Products CorpMethod of galvanizing a ferrous metal and a galvanizing flux composition therefor

Cited By (8)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US2847321A (en)*1945-03-161958-08-12Lowell D EubankMetal surface treatment
US2473004A (en)*1945-06-021949-06-14Du PontGalvanizing flux
US2872348A (en)*1946-05-061959-02-03Lowell D EubankFused salt method for coating uranium with a metal
US2544671A (en)*1948-02-121951-03-13Gen Motors CorpMethod of forming composite products consisting of ferrous metal and aluminum or aluminum-base alloy
US2671737A (en)*1950-10-101954-03-09Chrysler CorpAluminum coating process and flux
US2569097A (en)*1951-02-201951-09-25Gen Motors CorpMethod of coating ferrous metal with aluminum or an aluminum alloy
US2723449A (en)*1954-04-231955-11-15Aluminum Co Of AmericaMethod of dip brazing aluminous metal members
US3244551A (en)*1965-02-241966-04-05Chemical Products CorpMethod of galvanizing a ferrous metal and a galvanizing flux composition therefor

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