US1975227A - Method, apparatus, and elements thereof for use in the electrodeposition of chromium - Google Patents

Method, apparatus, and elements thereof for use in the electrodeposition of chromium Download PDF

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Publication number
US1975227A
US1975227A US512579A US51257931A US1975227A US 1975227 A US1975227 A US 1975227A US 512579 A US512579 A US 512579A US 51257931 A US51257931 A US 51257931A US 1975227 A US1975227 A US 1975227A
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lead
chromium
elements
tin
electrodeposition
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US512579A
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Charles H Eldridge
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United Chromium Inc
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United Chromium Inc
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    • CCHEMISTRY; METALLURGY
    • C25ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
    • C25DPROCESSES FOR THE ELECTROLYTIC OR ELECTROPHORETIC PRODUCTION OF COATINGS; ELECTROFORMING; APPARATUS THEREFOR
    • C25D17/00Constructional parts, or assemblies thereof, of cells for electrolytic coating
    • C25D17/10Electrodes, e.g. composition, counter electrode
    • CCHEMISTRY; METALLURGY
    • C25ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
    • C25DPROCESSES FOR THE ELECTROLYTIC OR ELECTROPHORETIC PRODUCTION OF COATINGS; ELECTROFORMING; APPARATUS THEREFOR
    • C25D3/00Electroplating: Baths therefor
    • C25D3/02Electroplating: Baths therefor from solutions
    • C25D3/04Electroplating: Baths therefor from solutions of chromium

Definitions

  • Ceramic and glass apparatus and elements are used, but these are fragile and limited as to size. 10 Iron apparatus and elements have been used, but
  • Lead apparatus and elements (the term being used herein to cover lead, inclusive of antimony lead, lined apparatus) have been 5 most commonly and generally used in the electrodeposition of chromium. Lead apparatus and relements have some drawbacks, as they require special care ⁇ (which is not always known and given) to prevent perforation due to the attack thereon of acids and acid radicals contained in the bath-the commonly used baths containing chromic acid and acid radicals in quantity and relative amounts which have such attack. Another drawback is the encrustation of the parts with sulphates and chromates, which oler resistance to the ow of current (particularly anodes) and resistance to temperature interchange (heating and cooling coils). Then from time to time there are unexplained failures with lead apparatus, and renewals and replacements are expensive, and there are other drawbacks.
  • I provide an apparatus and elements thereof which is much more resistant to attack by chromium plating solutions, and which will give superior service to lead apparatus and elements and avoids much of the special care required for preserving the latter.
  • the invention provides apparatus and elements 4thereof which may be formed with substantially 40 the same facility and exibility and by substantially the same methods as lead apparatus and elements, and which may have the advantage of greater rigidity (while still maintaining ductility) than even the lead known as hard lead.
  • Lead anodes used in the electrodeposition of chromium are especially susceptible to attack, and the present invention provides anodes which are much less susceptible to attack than such 50 lead anodes.
  • Figure l is a top plan view of an apparatus for the electrodeposition of chromium and em- 55 bodying the present invention.
  • Fig. 2 is a transverse vertical section, drawn on twice the scale of Fig. 1.
  • Fig. 3 is an enlarged detail view of an anode.
  • numeral 10 designates a tank or container provided with the usual or any suitable arrangement of cathode bus-bars 12, cathode-current conductor 14, anode bus-bars 16, anode-current conductor 18, and suitable ducts 20.
  • J designates a tank or container provided with the usual or any suitable arrangement of cathode bus-bars 12, cathode-current conductor 14, anode bus-bars 16, anode-current conductor 18, and suitable ducts 20.
  • Numeral 22 designates the anodes, and 24 the 65 coil or coils used for controlling the temperature of the bath-cooling coil, heating coil or both kinds of coils.
  • the apparatus may comprise more or less elements of those mentioned and not mentioned as maybe necessary or desirable.
  • the apparatus and/or its elements are formed of an alloy of lead and tin, the l5 base or predominant part of which is lead.
  • Eenecial elects according to the invention are obtained with a tin content as low as three percent (3%). With a tin content of ve percent (5%) and more the corrosion is practically neg- 30 ligible. The preferred tin content is about seven percent (7%).
  • Ductility and malleability sumcient for practical Aworking is maintained with a tin content up to and including about ten percent (10 With cast parts the content of tin may exceed ten percent, but there does not appear to be any substantial advantage in materially exceeding ten percent of tin, as both the cost and the brittleness increases with increased tin content.
  • the tank 10 is preferably formed of sheet-steel (though wood or other low-cost material may be used) as indicated at 30, and provided with a lining 32 of the hereindescribed lead-tin alloy.
  • the lining 32 is preferably applied in the form of duc- 95 tile and malleable sheets of the alloy within the hereindescribed range, and the edges may be joined or lapped and joined by burning such as is practiced in socalled lead-burning.
  • the coils 24 are preferably formed of extruded, or 100 drawn alloy, or of strips of the alloy formed into hollow form and the edges closed by burning, the alloy preferably being within the range hereindescribed for obtaining ductility and malleability wherebyxfragility is avoided.
  • the anode 22 is preferably made of strips of the hereindescribed alloy, and the upper end provided with the usual hook 34 by which it is suspended from the anode bus-bar 16.
  • the anode is preferably made of in- 110 creased thickness, as indicated at 36. to provide more material against Wastage by corrosion, as it is found in chromium deposition that corrosion most readily occurs at the solution-level.
  • the invention mayL receive -other embodiments than those herein specifically illustrated and de- ⁇ scribed.
  • An element of a chromium plating installation which is in contact with a chromic acid solution, consisting essentially of a lead-tin alloy containing a minimum of approximately three per cent tin.v
  • An element cfa-chromium plating installation which is in contact with a chromic acid solution, consisting essentially of a lead-tin alloy containing approximately three to ten percent inclusive of tin.
  • An element of a chromium plating installation which is in contact with a chromic acid solution, consisting essentially of a lead-tin alloy containing approximately seven percent tin.
  • chromic acid consisting essentially of a lead-tin alloy containing approximately seven percent tin.

Description

oct. 2, 1934. C. H ELDRmGE 1,975,227
METHOD, APPARATUS, AND ELEMENTS THEREOF FOR USE IN THE ELECTRODEPOSITION OF CHROMIUM Filed Jan. 51, 1951 FIG.. Z Y Fla?) ((/DNLINVENTOR EY Patented Oct. 2, 1934 METHOD, APPARATUS',
AND ELEMENTS THEREOF FOR USE IN THE ELECTRO- DEPOSITION OF CHROMIUM Charles H. Eldridge, Detroit, Mich., assignor to United Chromium, Incorporated, New York, N. Y., a corporation oi' Delaware Application January 31, 1931, serial No. 512,579
7 Claims. (Cl. 20d-5) This invention relates to apparatus and elef ments thereof for use in the electrodeposition of chromium and provides improvements therein.
As is well recognized in the art of chromium deposition, a want exists for apparatus (tanks,
coils, anodes, etc.) more serviceable than that heretofore available and suitable for common use.
Ceramic and glass apparatus and elements are used, but these are fragile and limited as to size. 10 Iron apparatus and elements have been used, but
the iron dissolves and objectonably contaminates the bath. Lead apparatus and elements (the term being used herein to cover lead, inclusive of antimony lead, lined apparatus) have been 5 most commonly and generally used in the electrodeposition of chromium. Lead apparatus and relements have some drawbacks, as they require special care`(which is not always known and given) to prevent perforation due to the attack thereon of acids and acid radicals contained in the bath-the commonly used baths containing chromic acid and acid radicals in quantity and relative amounts which have such attack. Another drawback is the encrustation of the parts with sulphates and chromates, which oler resistance to the ow of current (particularly anodes) and resistance to temperature interchange (heating and cooling coils). Then from time to time there are unexplained failures with lead apparatus, and renewals and replacements are expensive, and there are other drawbacks.
By the present invention I provide an apparatus and elements thereof which is much more resistant to attack by chromium plating solutions, and which will give superior service to lead apparatus and elements and avoids much of the special care required for preserving the latter.
The invention provides apparatus and elements 4thereof which may be formed with substantially 40 the same facility and exibility and by substantially the same methods as lead apparatus and elements, and which may have the advantage of greater rigidity (while still maintaining ductility) than even the lead known as hard lead.
Lead anodes used in the electrodeposition of chromium are especially susceptible to attack, and the present invention provides anodes which are much less susceptible to attack than such 50 lead anodes.
An embodiment of the invention is illustrated in the accompanying drawing, wherein:
Figure l is a top plan view of an apparatus for the electrodeposition of chromium and em- 55 bodying the present invention.
Fig. 2 is a transverse vertical section, drawn on twice the scale of Fig. 1.
Fig. 3 is an enlarged detail view of an anode. Referring to said drawing, numeral 10 designates a tank or container provided with the usual or any suitable arrangement of cathode bus-bars 12, cathode-current conductor 14, anode bus-bars 16, anode-current conductor 18, and suitable ducts 20. J
Numeral 22 designates the anodes, and 24 the 65 coil or coils used for controlling the temperature of the bath-cooling coil, heating coil or both kinds of coils. The apparatus may comprise more or less elements of those mentioned and not mentioned as maybe necessary or desirable.
According to the invention the apparatus and/or its elements, particularly the parts which are immersed in the chromium-deposition bath or otherwise subjected to the action o the solution, are formed of an alloy of lead and tin, the l5 base or predominant part of which is lead.
Eenecial elects according to the invention are obtained with a tin content as low as three percent (3%). With a tin content of ve percent (5%) and more the corrosion is practically neg- 30 ligible. The preferred tin content is about seven percent (7%).
Ductility and malleability sumcient for practical Aworking is maintained with a tin content up to and including about ten percent (10 With cast parts the content of tin may exceed ten percent, but there does not appear to be any substantial advantage in materially exceeding ten percent of tin, as both the cost and the brittleness increases with increased tin content.
The tank 10 is preferably formed of sheet-steel (though wood or other low-cost material may be used) as indicated at 30, and provided with a lining 32 of the hereindescribed lead-tin alloy. The lining 32 is preferably applied in the form of duc- 95 tile and malleable sheets of the alloy within the hereindescribed range, and the edges may be joined or lapped and joined by burning such as is practiced in socalled lead-burning. The coils 24 are preferably formed of extruded, or 100 drawn alloy, or of strips of the alloy formed into hollow form and the edges closed by burning, the alloy preferably being within the range hereindescribed for obtaining ductility and malleability wherebyxfragility is avoided.
The anode 22 is preferably made of strips of the hereindescribed alloy, and the upper end provided with the usual hook 34 by which it is suspended from the anode bus-bar 16. At the solution-line the anode is preferably made of in- 110 creased thickness, as indicated at 36. to provide more material against Wastage by corrosion, as it is found in chromium deposition that corrosion most readily occurs at the solution-level.
The invention mayL receive -other embodiments than those herein specifically illustrated and de-` scribed.
What is claimed is:-
1. An element of a chromium plating installation which is in contact with a chromic acid solution, consisting essentially of a lead-tin alloy containing a minimum of approximately three per cent tin.v
1 2. An element cfa-chromium plating installation which is in contact with a chromic acid solution, consisting essentially of a lead-tin alloy containing approximately three to ten percent inclusive of tin.
3. An element of a chromium plating installation which is in contact with a chromic acid solution, consisting essentially of a lead-tin alloy containing approximately seven percent tin.
4. An anode for chromium plating in a bath containing chromic acid consisting essentiaily of 6. An anode for chromium plating in a baths,V
containing chromic acid consisting essentially of a lead-tin alloy containing approximately seven percent tin.
'7. In' a process ci.' chromium plating in which the bath contains chromic acid, inhibiting sediment\ due to the action of the chromic acid by forming the parts of the installation which are 5in contact with the chromic acid o! an alloy essentially of lead and tin containing a minimum of approximately three percent tin.
los
US512579A 1931-01-31 1931-01-31 Method, apparatus, and elements thereof for use in the electrodeposition of chromium Expired - Lifetime US1975227A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2744064A (en) * 1946-06-14 1956-05-01 Thomas V Moore Re-entrant cooling reactor

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2744064A (en) * 1946-06-14 1956-05-01 Thomas V Moore Re-entrant cooling reactor

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