US2583100A - Treatment of a metallic cathode to receive electrodeposited metal - Google Patents

Treatment of a metallic cathode to receive electrodeposited metal Download PDF

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Publication number
US2583100A
US2583100A US737092A US73709247A US2583100A US 2583100 A US2583100 A US 2583100A US 737092 A US737092 A US 737092A US 73709247 A US73709247 A US 73709247A US 2583100 A US2583100 A US 2583100A
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cathode
iron
treatment
acid
aqueous
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US737092A
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Howard R Wilson
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Union Carbide Corp
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Union Carbide and Carbon Corp
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    • CCHEMISTRY; METALLURGY
    • C25ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
    • C25CPROCESSES FOR THE ELECTROLYTIC PRODUCTION, RECOVERY OR REFINING OF METALS; APPARATUS THEREFOR
    • C25C7/00Constructional parts, or assemblies thereof, of cells; Servicing or operating of cells
    • C25C7/06Operating or servicing
    • C25C7/08Separating of deposited metals from the cathode

Definitions

  • the present invention is useful in connection with the cathodes of the cell disclosed in the patent application of J. P. Oliver, filed March 25, 1947, Serial No. 736,939, for the recovery of iron from pickle liquor by the method disclosed in the patent application of Heise, Schumacher, and Wilson, filed March 25, 1947, Serial No. 737,000.
  • the present invention is to be differentiated from that art which is concerned principally with having the deposited metal adhere as permanently as possible to a cathode in the case where the cathode is a solid metal as, for instance, when a metallic object i given a protective coating.
  • the cathode is preferably cleaned before the acid treatment in order to remove dirt, grease and the like. which would prevent the acid from attacking the metal of the cathode at the desired areas.
  • Acid of substantially any strength may be used for treating the cathode but, in practice, it ispreferred to use a fairly dilute aqueous solution of the acid, for instance from about a 5% to a 15% solution, to afford the operator time to treat the entire surface of the cathode which is to receive the plate without having the acid attack too much the portions of the cathode which are first treated.
  • the acid maybe applied to the cathode in any suitable manner as by spraying or the like, or by dipping the cathode in the solution. Dipping the iron cathode sheets in aqueous 10% HNOz causes brown fumes to appear in from about 10 to 25 seconds, which is a, convenient length of time for the treatment.
  • the cathode is preferably flushed with clean water until no further fumes appear, and the cathode is then ready for use. It is important that the acid treatment not be prolonged as too long a treatment will give the surface a distinct etch which will not allow the iron plate easily to be removed.
  • the surface of the cathode is somewhat roughened or etched, but very evenly if the cathode has properly been cleaned; and the surface has a matte finish but is free from surface pits.
  • the preferred upper limit of acid treatment corresponds to 25 seconds immersion in a l0% HNO3 solution; this does not etch the cathode so deeply but what the cathode may be given more acid treatments for successive uses without having the cathode etched so deeply that the plate is difiicult to release. If the cathode is to be used once or only a very few times, the etching may be deeper.
  • the washed surface of the acid-treated iron cathode, treated only until the fumes appear, is slightly darkened by a slightly dark film which may be removed by scrubbing with a Wet cloth and the surface appears to be etched only microscopically. Whether or not the dark film is present or has been scrubbed off, the treated surface readily receives from an iron sulphate or other suitable iron salt solution a good strike of deposited iron which, later, can easily be removed.
  • the iron surface is etched but, at least on the first acid treatment of the preferred minimum duration, so slightly that the etching is not visible to the naked eye and that a film containing iron combined with oxygen or nitrogen or both (a salt), is formed on the surface of the cathode and that both the very slight etching and the film, working together, give the results.
  • the film which is useful may be the dark discoloration but the film which is in the incipient stage of formation is also operative as a good strike and a good strip can be obtained even though the discoloration is removed.
  • a I h With the proper conditioning, treatment the surface of an iron starting sheet is characterized by an even matte finish free from surface pits rather than a visible roughening "or etching.
  • a properly conditioned surface may be used repeatedly without further treatment.
  • a cathode may be given :the acid treatment before each use, particularlyif the -surface has become oxidized when not in use.
  • succeeding treatments are preferably of minimum duration the object being to restore the film but to etch the cathode as little as possible.
  • the limit on the number of times that a cathod'e may be used depends "upon the amount of etching. At each 'a'cid'trfeatment, the surface of the cathodeis etched to some extent and the points of etching may, finally become so deep that the deposited area 'does not easily release.
  • a deeply etchedcathod'e may be reconditioned by shaving, grinding, sandblasting or the like to smooth the surface and then be used for another series of acid treatments and depositions.
  • the advantage of the treatment described is its low cost, speed and simplicity and the effective results which may be obtained when properly operated; and, although the invention is of general application, it is of particular value in connec tion with "a flexible cathode, for instance of sheet metaL'so that the plate and cathode'may easily be separated merely by flexing the cathode.
  • the invention is "notlimited to iron starting sheets. It has been found'that good results can be obtained with such metals as copper, aluminum, Monel orstainless steel, although the treatment is notidentical in all cases. With aluminum, Monel or stainless steel, for example, periods of as much as one hour in 10% acid may be required to give the desired surface; copper, on,
  • Room temperature (20-25 C.) is the most convenient temperature at which to treat the cathodes and is the preferred temperature, particularly with metals which are readily attacked by the acid as the action of the acid is slower the lowerthe temperature. With metals which are not readily attacked by the acid, more concentrated acid and higher temperatures may be used to shorten the time of treatment.
  • Electrolytic method comprising electrolytically depositing iron on an iron cathode which has been subjectedto'theaction of aqueous nitric acid only until brown fumes appear from the cathode surface and the surface presents a dark film, and then further action of the acid prevented; the cathode'surface'presenting an evenly etched matte finish free of such distinct crystalline etch as to be visible to the naked eye, the amount of treatmentcorresponding to the immersion of the cathode in an aqueous 5% to 15% nitric acid solution for from 10 to 25 seconds.

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Electrochemistry (AREA)
  • Materials Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Electroplating Methods And Accessories (AREA)
  • ing And Chemical Polishing (AREA)

Description

Patented Jan. 22, 1952 UNITED STATES PATENT OFFICE TREATMENT OF A METALLIC CATHODE TO RECEIVE ELEOTRDDEPOSITED METAL Howard B. Wilson, Painesville, Ohio, assignor, by
mesne assignments, to Union Carbide andCarbon Corporation, a corporation of New York No Drawing. Application March 25, 1947,
Serial N0. 737,092
as the plated cathode is removed from the tank but yet that the plate can easily be removed from the cathode by a minor mechanical operation, for instance by slightly prying the plate from the cathode or by vibrating or flexing the cathode. The present invention is useful in connection with the cathodes of the cell disclosed in the patent application of J. P. Oliver, filed March 25, 1947, Serial No. 736,939, for the recovery of iron from pickle liquor by the method disclosed in the patent application of Heise, Schumacher, and Wilson, filed March 25, 1947, Serial No. 737,000.
The present invention is to be differentiated from that art which is concerned principally with having the deposited metal adhere as permanently as possible to a cathode in the case where the cathode is a solid metal as, for instance, when a metallic object i given a protective coating.
In the recovery of iron from iron solutions it is desirable to deposit the iron on an iron cathode but to have the union of such a character that, although it introduces no appreciable electrical resistance into the system and is so firm that the cathode and plate do not separate in the cell and can be handled as a unit, the plate may easily be removed from the cathode when the unit is withdrawn from the cell. To be practical in commercial operations, whatever is done must be at a cost which is low in both time and materials.
In the recovery of iron by electrical deposition, it has been proposed to "blue a starting sheet by heat treatment to produce a surface from which the electrodeposited iron can be separated, but this procedure is cumbersome, difiicult to control and is costly in time, labor and required apparatus. It has also been proposed to receive deposited metal in a mercury cathode; but this requires a later separation of metal and mercury to recover the metal, e. g. a distillation of the amalgam or mixture.
It is now found that the desideratum may be accomplished quite simply by the proper treatment of an iron cathode with nitric acid.
To facilitate the action of the acid, the cathode is preferably cleaned before the acid treatment in order to remove dirt, grease and the like. which would prevent the acid from attacking the metal of the cathode at the desired areas. The
- a surface.
2 Claims. (Cl. 204-112) cleaning may be effected in any suitable manner as'by washing or by an electrolytic treatment or by any method by which iron cathodes are usually cleaned, or dirtand grease are removed from Finally, the cathode is preferably washed with clean water just prior to the acid treatment.
Acid of substantially any strength may be used for treating the cathode but, in practice, it ispreferred to use a fairly dilute aqueous solution of the acid, for instance from about a 5% to a 15% solution, to afford the operator time to treat the entire surface of the cathode which is to receive the plate without having the acid attack too much the portions of the cathode which are first treated. The acid maybe applied to the cathode in any suitable manner as by spraying or the like, or by dipping the cathode in the solution. Dipping the iron cathode sheets in aqueous 10% HNOz causes brown fumes to appear in from about 10 to 25 seconds, which is a, convenient length of time for the treatment. As soon as brown'fumes appear from the major portion (or all) of the cathode sheet surface in the manner previously stated, the cathode is preferably flushed with clean water until no further fumes appear, and the cathode is then ready for use. It is important that the acid treatment not be prolonged as too long a treatment will give the surface a distinct etch which will not allow the iron plate easily to be removed. By the conditioning treatment, the surface of the cathode is somewhat roughened or etched, but very evenly if the cathode has properly been cleaned; and the surface has a matte finish but is free from surface pits. The preferred upper limit of acid treatment corresponds to 25 seconds immersion in a l0% HNO3 solution; this does not etch the cathode so deeply but what the cathode may be given more acid treatments for successive uses without having the cathode etched so deeply that the plate is difiicult to release. If the cathode is to be used once or only a very few times, the etching may be deeper.
The washed surface of the acid-treated iron cathode, treated only until the fumes appear, is slightly darkened by a slightly dark film which may be removed by scrubbing with a Wet cloth and the surface appears to be etched only microscopically. Whether or not the dark film is present or has been scrubbed off, the treated surface readily receives from an iron sulphate or other suitable iron salt solution a good strike of deposited iron which, later, can easily be removed. It appears that by the acid treatment the iron surface is etched but, at least on the first acid treatment of the preferred minimum duration, so slightly that the etching is not visible to the naked eye and that a film containing iron combined with oxygen or nitrogen or both (a salt), is formed on the surface of the cathode and that both the very slight etching and the film, working together, give the results. The film which is useful may be the dark discoloration but the film which is in the incipient stage of formation is also operative as a good strike and a good strip can be obtained even though the discoloration is removed. A I h With the proper conditioning, treatment the surface of an iron starting sheet is characterized by an even matte finish free from surface pits rather than a visible roughening "or etching. If the surface shows to the naked eye a distinct crystalline etch, the treatment has gone too far, and the plated deposit cannot easily be removed. A properly conditioned surface may be used repeatedly without further treatment. However, a cathode may be given :the acid treatment before each use, particularlyif the -surface has become oxidized when not in use. After the first treatment, succeeding treatments are preferably of minimum duration the object being to restore the film but to etch the cathode as little as possible. The limit on the number of times that a cathod'e may be used depends "upon the amount of etching. At each 'a'cid'trfeatment, the surface of the cathodeis etched to some extent and the points of etching may, finally become so deep that the deposited area 'does not easily release.
Treating the cathodes 'dnly'until the brown fumes 3 appear (but no longerlfetclies the cathode to the minimum extent "and allowsit to be reused a greater number of times than if it is more deeply etched at each acid treatment. However,
a deeply etchedcathod'e may be reconditioned by shaving, grinding, sandblasting or the like to smooth the surface and then be used for another series of acid treatments and depositions. The advantage of the treatment described is its low cost, speed and simplicity and the effective results which may be obtained when properly operated; and, although the invention is of general application, it is of particular value in connec tion with "a flexible cathode, for instance of sheet metaL'so that the plate and cathode'may easily be separated merely by flexing the cathode.
The invention is "notlimited to iron starting sheets. It has been found'that good results can be obtained with such metals as copper, aluminum, Monel orstainless steel, although the treatment is notidentical in all cases. With aluminum, Monel or stainless steel, for example, periods of as much as one hour in 10% acid may be required to give the desired surface; copper, on
the other hand, behaves more like iron, requiring less than a minute in acid at room temperature. Room temperature (20-25 C.) is the most convenient temperature at which to treat the cathodes and is the preferred temperature, particularly with metals which are readily attacked by the acid as the action of the acid is slower the lowerthe temperature. With metals which are not readily attacked by the acid, more concentrated acid and higher temperatures may be used to shorten the time of treatment.
The invention is susceptible of modification within the scope of the appended claims.
Whatis claimed is:
1.7m the art of winning iron from an aqueous solution of an iron -salt by the electrodeposition of the iron from the salt onto an iron cathode, the method. "of conditioning the cathode prior to deposition of the iron which comprises subjecting the cathode to the action of aqueous nitric acid only until brown fumes appear from the cathode surface and the surface is given an evenly etched matte finish and presents a dark film, and then preventing further action of the acid, the surface being free 'of such distinct crystalline etch as to be visible to the naked eye and the amount of treatment corresponding to the immersion of the cathode in an aqueous 5% to 15% nitric acid solution'fo'r from 10 to 25 seconds.
2. Electrolytic method comprising electrolytically depositing iron on an iron cathode which has been subiectedto'theaction of aqueous nitric acid only until brown fumes appear from the cathode surface and the surface presents a dark film, and then further action of the acid prevented; the cathode'surface'presenting an evenly etched matte finish free of such distinct crystalline etch as to be visible to the naked eye, the amount of treatmentcorresponding to the immersion of the cathode in an aqueous 5% to 15% nitric acid solution for from 10 to 25 seconds.
HOWARD R. WILSON.
REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS Number Name Date 454,381 Reinfeld June 16, 1891 1,945,107 Cain Jan. 30, 1934 2,044,742 Armstrong 'June 16, 1936 2,223,928 Whitfield et a1 Dec. 3, 1940 2,314,915 Witchger Mar. 30, 1943 2,374,356 Keuffel Apr. 24, 1945 2,411,532 Escofiery Nov. 26, 1946 2,480,156 Matson et al Aug. 30, 1949 FOREIGN PATENTS Number Country Date 405,902 Great Britain Feb. 15, 1934

Claims (1)

1. IN THE ART OF WINNING IRON FROM AN AQUEOUS SOLUTION OF AN IRON SALT BY THE ELECTRODEPOSITION OF THE IRON FROM THE SALT ONTO AN IRON CATHODE, THE METHOD OF CONDITIONING THE CATHODE PRIOR TO DEPOSITION OF THE IRON WHICH COMPRISES SUBJECTING THE CATHODE TO THE ACTION OF AQUEOUS NITRIC ACID ONLY UNTIL BROWN FUMES APPEAR FROM THE CATHODE SURFACE AND THE SURFACE IS GIVEN AN EVENLY ETCHED MATTE FINISH AND PRESENTS A DARK FILM, AND THEN PREVENTING FURTHER ACTION OF THE ACID, THE SURFACE BEING FREE OF SUCH DISTINCT CRYSTALLINE ETCH AS TO BE VISIBLE TO THE NAKED EYE AND THE AMOUNT OF TREATMENT CORRESPONDING TO THE IMMERSION OF THE CATHODE IN AN AQUEOUS 5% TO 15% NITRIC ACID SOLUTION FOR FROM 10 TO 25 SECONDS.
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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3420758A (en) * 1965-07-06 1969-01-07 Foote Mineral Co Method for removal of adherent surface coatings from substrates
US3617450A (en) * 1968-08-07 1971-11-02 Mitsubishi Metal Mining Co Ltd Automatic stripping of electrodeposited starting sheets
US3693236A (en) * 1966-05-12 1972-09-26 Gerhard Kapell Method of detaching galvanically produced sheets from master sheets
US4027378A (en) * 1973-02-08 1977-06-07 Olov Carl Gustav Wennberg Removing deposited material from the edge portions of a plate
US4480549A (en) * 1980-03-17 1984-11-06 Nippon Paint Co., Ltd. Lithographic printing plate

Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US454381A (en) * 1891-06-16 Alexander gael seinfeld
US1945107A (en) * 1931-05-27 1934-01-30 Frederic A Eustis Method of making ductile electrolytic iron
GB405902A (en) * 1932-08-27 1934-02-15 Falconbridge Nikkelverk Improvements in or relating to the electrolytic deposition of nickel from nickel salt solutions
US2044742A (en) * 1934-11-27 1936-06-16 Armstrong Composite ferrous bodies
US2223928A (en) * 1937-02-17 1940-12-03 Reynolds Metals Co Production of electrolytic iron
US2314915A (en) * 1939-11-24 1943-03-30 Lufkin Rule Co Measuring tape
US2374356A (en) * 1939-06-08 1945-04-24 Keuffel & Esser Co Method and apparatus for preparing highly legible tapes
US2411532A (en) * 1945-02-16 1946-11-26 Standard Telephones Cables Ltd Method of roughening steel
US2480156A (en) * 1944-11-24 1949-08-30 Buel Metals Company Electrodeposition of iron

Patent Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US454381A (en) * 1891-06-16 Alexander gael seinfeld
US1945107A (en) * 1931-05-27 1934-01-30 Frederic A Eustis Method of making ductile electrolytic iron
GB405902A (en) * 1932-08-27 1934-02-15 Falconbridge Nikkelverk Improvements in or relating to the electrolytic deposition of nickel from nickel salt solutions
US2044742A (en) * 1934-11-27 1936-06-16 Armstrong Composite ferrous bodies
US2223928A (en) * 1937-02-17 1940-12-03 Reynolds Metals Co Production of electrolytic iron
US2374356A (en) * 1939-06-08 1945-04-24 Keuffel & Esser Co Method and apparatus for preparing highly legible tapes
US2314915A (en) * 1939-11-24 1943-03-30 Lufkin Rule Co Measuring tape
US2480156A (en) * 1944-11-24 1949-08-30 Buel Metals Company Electrodeposition of iron
US2411532A (en) * 1945-02-16 1946-11-26 Standard Telephones Cables Ltd Method of roughening steel

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3420758A (en) * 1965-07-06 1969-01-07 Foote Mineral Co Method for removal of adherent surface coatings from substrates
US3693236A (en) * 1966-05-12 1972-09-26 Gerhard Kapell Method of detaching galvanically produced sheets from master sheets
US3617450A (en) * 1968-08-07 1971-11-02 Mitsubishi Metal Mining Co Ltd Automatic stripping of electrodeposited starting sheets
US4027378A (en) * 1973-02-08 1977-06-07 Olov Carl Gustav Wennberg Removing deposited material from the edge portions of a plate
US4480549A (en) * 1980-03-17 1984-11-06 Nippon Paint Co., Ltd. Lithographic printing plate
US4556462A (en) * 1980-03-17 1985-12-03 Nippon Paint Co., Ltd. Method for producing a lithographic printing plate

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