US3261840A - Bright nickel plating baths - Google Patents

Bright nickel plating baths Download PDF

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US3261840A
US3261840A US359762A US35976264A US3261840A US 3261840 A US3261840 A US 3261840A US 359762 A US359762 A US 359762A US 35976264 A US35976264 A US 35976264A US 3261840 A US3261840 A US 3261840A
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allyl
nickel
vinyl
bromide
chloride
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US359762A
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Kroll Harry
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Sarki Research and Development Corp
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Sarki Research and Development Corp
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    • 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
    • C25D3/12Electroplating: Baths therefor from solutions of nickel or cobalt
    • C25D3/14Electroplating: Baths therefor from solutions of nickel or cobalt from baths containing acetylenic or heterocyclic compounds
    • C25D3/18Heterocyclic compounds

Definitions

  • This invention relates to a composition of organic bromides and chlorides useful for addition to electroplating baths, i.e. solutions of water-soluble nickel salts to improve the brightness of nickel electrodeposited from such solutions.
  • the organic bromide and chloride additives produce electro-deposits of nickel on base metals which are highly lustrous, adherent and ductile.
  • the subject compounds are nitrogen heterocyclic derivatives belonging to the 2- and 4-vinyl pyridine groups, reacted with allyl and methallyl bromide or chloride to yield corresponding vinyl pyridinium compounds.
  • These compounds can be represented by the following:
  • R is an allyl or methallyl group
  • R is vinyl, and may be substituted in the 2 or 4 position of the pyridine.
  • N-allyl-2 vinyl pyridinium bromide N-allyl-4-vinyl pyridinium bromide, and mixtures thereof; the corresponding chlorides are also useful; and, also, the corresponding Nmethallyl-2-vinyl pyridinium bromide and chloride as well as the N-methallyl-4-vinyl pyridinium bromide and chloride are useful.
  • organic derivatives which are the basis of this invention and the preferred concentration at which they are used in electroplating baths are listed in Table I. They are used jointly with the sulfur compounds described in Table II. The sulfur compounds listed are a representative group useful for the purpose.
  • the use of the compounds in accordance with this invention for producing bright nickel deposits is based on electro-depositing nickel from a solution of one or more nickel salts to which there has been added 0.001 to 0.30 gram per liter of an allyl or methallyl 2- or 4-vinyl pyridinium halide as listed in Table I herein, together with 0.1 to 80 grams per liter of a sulfur compound in which the sulfur atom has a valence of 4 or 6, and is selected from the group of aliphatic unsaturated sulfonic acids, mononuclear and binuclear aromatic sulfonic acids, heterocyclic sulfonic acids, mononuclear aromatic sulfinic acids, aromatic sulfonamides and sulfonimides (see Table II herein).
  • the water soluble alkali metal, ammonium magnesium, and nickel salts of the above com pounds are used in combination with the quaternary 2- and 4-vinyl pyridinium compounds in accordance with
  • the brightener additives used in the method of this invention Were evaluated in 21 Hull cell using a standard Watts type bath containing 330 grams of nickel sulfate hexahydrate/liter, 45 grams of nickel chloride per liter, 37.5 grams per liter of boric acid, operated at a pH of 3.5, and a temperature of 50 C.
  • the nickel deposits were made on brass Hull cell panels 2" by 3" by plating for five minutes at three amperes.
  • the concentrations and combination of organic additives which gave brilliant mirror-like deposits of nickel over a wide current density range are listed in Table III.
  • Nickel sulfate 6H O 330 Sodium chloride 30 N-allyl 2-vinyl pyridinium bromide 0.01 Naphthalene trisulfonic acid 2.0-8.0 Nickel fluoborate 225 Nickel chloride 6H O 30 Boric acid 30 N-allyl 4-vinyl pyridinium bromide 0.005.l0 2,5-naphthalene disulfonic acid 2.88.0
  • the above plating bath compositions are illustrative of the ranges of bath compositions which have been tested successfully and do not indicate any limit of the bath composition which can be employed in accordance with the invention.
  • useful ranges of nickel concentration are from 200-400 grams per liter; whether the nickel be present as sulfate, chloride, nitrate or fluoborate.
  • concentrations of the organic sulfur additives and the vinyl pyridinium additives listed in the tables are by no means limiting. Preferred operative ranges are given. A considerable variation in concentration of these agents is permissible depending on what the specification requires of the electro-deposited nickel; i.e. brightness, ductility, thickness, speed of buildup, etc.
  • the pyridine compounds areall synthesized in the same fashion.
  • the allyl bromide or chloride is reacted with the appropriate pyridine or quinoline in stoichi-ometric proportions and the quaternized compound recovered.
  • allyl bromide is reacted, as in Example I, in a 1:1 molar ratio with quinoline, methyl quinoline and vinyl quinolines.
  • the synthesis is the direct stoichiometric reaction carried out carefully with stoichiometric amounts, so that a good yield is obtained.
  • any of the primary brighteners listed in Table II as being typical may be combined with any of the secondary brighteners of Table I in the conventional acid nickel plating baths.
  • I have tested alarge variety of combinations, virtually exhausting the possibilities, and have found that, in all cases, an improvement in the brightening effect is obtained. It is also accompanied by an improvement in ductility of the nickel plate.
  • Table III I have listed certain of the preferred combinations, indicating that in any of the conventional Watts type baths used in the art, or conforming to those indicating herein, the combination will produce optimum results.
  • N-Z-methallyl 2-vinyl pyridinium bromide N-Z-methallyl 2-vinyl pyridinium bromide.
  • N-allyl 2-vinyl pyridinium bromide N-allyl 2-vinyl pyridinium bromide.
  • N-allyl 4-vinyl pyridinium bromide N-allyl 4-vinyl pyridinium bromide.
  • N-2-rnethallyl 4-vinyl pyridinium bromide N-2-rnethallyl 4-vinyl pyridinium bromide.
  • N-Z-methallyl 2-vinyl pyridinium chloride N-Z-methallyl 2-vinyl pyridinium chloride.
  • N-allyl 2-vinyl pyridinium chloride N-allyl 2-vinyl pyridinium chloride.
  • N-allyl 4-vinyl pyridinium chloride N-allyl 4-vinyl pyridinium chloride.

Description

United States Patent 9 Claims. (Cl. 260-290) This application is a division of application Serial No. 266,032, now Patent No. 3,170,853, filed March 18, 1963.
This invention relates to a composition of organic bromides and chlorides useful for addition to electroplating baths, i.e. solutions of water-soluble nickel salts to improve the brightness of nickel electrodeposited from such solutions. The organic bromide and chloride additives produce electro-deposits of nickel on base metals which are highly lustrous, adherent and ductile.
The subject compounds are nitrogen heterocyclic derivatives belonging to the 2- and 4-vinyl pyridine groups, reacted with allyl and methallyl bromide or chloride to yield corresponding vinyl pyridinium compounds. These compounds can be represented by the following:
Pyridininm compounds In the above representation, R is an allyl or methallyl group, R is vinyl, and may be substituted in the 2 or 4 position of the pyridine. Of outstanding utility are the N-allyl-2 vinyl pyridinium bromide, N-allyl-4-vinyl pyridinium bromide, and mixtures thereof; the corresponding chlorides are also useful; and, also, the corresponding Nmethallyl-2-vinyl pyridinium bromide and chloride as well as the N-methallyl-4-vinyl pyridinium bromide and chloride are useful.
The organic derivatives which are the basis of this invention and the preferred concentration at which they are used in electroplating baths are listed in Table I. They are used jointly with the sulfur compounds described in Table II. The sulfur compounds listed are a representative group useful for the purpose.
Although quaternary ammonium salts of nitrogen heterocyclics have been previously identified as useful additives to bright nickel plating baths, allyl bromide and chloride salts of 2 and 4 vinyl pyridine are unique for this application.
I have found that if the acid anion is a bromide or chloride, and if the nitrogen in the cation is quaternized with an allyl or methallyl group, a product is obtained which is water dispersible and produces a superior brilliant adherent nickel deposit when added to a nickel electroplating bath containing the organic additives described in Table II.
The use of the compounds in accordance with this invention for producing bright nickel deposits is based on electro-depositing nickel from a solution of one or more nickel salts to which there has been added 0.001 to 0.30 gram per liter of an allyl or methallyl 2- or 4-vinyl pyridinium halide as listed in Table I herein, together with 0.1 to 80 grams per liter of a sulfur compound in which the sulfur atom has a valence of 4 or 6, and is selected from the group of aliphatic unsaturated sulfonic acids, mononuclear and binuclear aromatic sulfonic acids, heterocyclic sulfonic acids, mononuclear aromatic sulfinic acids, aromatic sulfonamides and sulfonimides (see Table II herein). The water soluble alkali metal, ammonium magnesium, and nickel salts of the above com pounds are used in combination with the quaternary 2- and 4-vinyl pyridinium compounds in accordance with this invention.
The brightener additives used in the method of this invention Were evaluated in 21 Hull cell using a standard Watts type bath containing 330 grams of nickel sulfate hexahydrate/liter, 45 grams of nickel chloride per liter, 37.5 grams per liter of boric acid, operated at a pH of 3.5, and a temperature of 50 C. The nickel deposits were made on brass Hull cell panels 2" by 3" by plating for five minutes at three amperes. The concentrations and combination of organic additives which gave brilliant mirror-like deposits of nickel over a wide current density range are listed in Table III.
Lustrous and adherent nickel deposits were also obtained from baths having the following composition:
Grams/ liter Nickel sulfate 6H O 330 Sodium chloride 30 N-allyl 2-vinyl pyridinium bromide 0.01 Naphthalene trisulfonic acid 2.0-8.0 Nickel fluoborate 225 Nickel chloride 6H O 30 Boric acid 30 N-allyl 4-vinyl pyridinium bromide 0.005.l0 2,5-naphthalene disulfonic acid 2.88.0
The above plating bath compositions are illustrative of the ranges of bath compositions which have been tested successfully and do not indicate any limit of the bath composition which can be employed in accordance with the invention. Actually, useful ranges of nickel concentration are from 200-400 grams per liter; whether the nickel be present as sulfate, chloride, nitrate or fluoborate. The concentrations of the organic sulfur additives and the vinyl pyridinium additives listed in the tables are by no means limiting. Preferred operative ranges are given. A considerable variation in concentration of these agents is permissible depending on what the specification requires of the electro-deposited nickel; i.e. brightness, ductility, thickness, speed of buildup, etc.
It is also well understood in the process of bright nickel electroplating that in order to obtain pit-free nickel deposits, it is advantageous to employ agitated, well-filtered solutions. The use of a Wetting agent such as sodium lauryl sulfate at concentrations up to 0.25 gram per liter also permits the electroplating of pit-free nickel deposits.
The synthesis of these novel 'brighteners is readily carried out in accordance With the following procedure:
EXAMPLE I.--ALLYL Z-VINYL PYRIDINIUM BROMIDE CH2=CHCH2Br W 0H=0in N CH=CHz CH2=OH2Cfi2 Br Reagents: Weight (grams) Allyl bromide (1 mol) 1260 2-vinyl pyridine (1 mol) 1434 The allyl bromide and vinyl pyridine are mixed with an equal weight of isopropyl alcohol, and the solution is refluxed for 6-8 hours. Reflux temperature is 78-83 C. The end-point of the reaction is determined by titrating for ionic bromide with silver nitrate.
The pyridine compounds areall synthesized in the same fashion. The allyl bromide or chloride is reacted with the appropriate pyridine or quinoline in stoichi-ometric proportions and the quaternized compound recovered. Thus, allyl bromide is reacted, as in Example I, in a 1:1 molar ratio with quinoline, methyl quinoline and vinyl quinolines.
EXAMPLE II To synthesize the N-methallyl 2-vinyl pyridinium bromide, the methallyl bromide is reacted with 2-vinyl pyridi-ne under the conditions described in Example 1.
EXAMPLE III To make the N-allyl 4-vinyl pyridinium bromide, the phosphate is reacted with the quinoline as in Example I.
EXAMPLE IV Similarly, for making the allyl and methallyl chloride compounds of 2- and 4-vinyl pyridine, the corresponding allyl and methallyl chlorides are reacted with the corresponding 2- and '4-vinyl pyridines.
The synthesis is the direct stoichiometric reaction carried out carefully with stoichiometric amounts, so that a good yield is obtained.
Referring to the following tables, in Table I, I have listed the quaternized 2- and 4-vinyl pyridine compounds useful for addition to conventional plating baths as brighteners. I have also indicated the preferred range of concentration.
In Table II, I have listed a group of preferred sulfur compounds which are commonly referred to in the trade as primary brighteners. By this is meant that they are added to the plating bath as brighteners and with the cyclic nitrogen compounds give a net result which is a substantial improvement over the effect obtained with either one alone. The preferred concentration ranges are also indicated.
Any of the primary brighteners listed in Table II as being typical may be combined with any of the secondary brighteners of Table I in the conventional acid nickel plating baths. I have tested alarge variety of combinations, virtually exhausting the possibilities, and have found that, in all cases, an improvement in the brightening effect is obtained. It is also accompanied by an improvement in ductility of the nickel plate. In Table III, I have listed certain of the preferred combinations, indicating that in any of the conventional Watts type baths used in the art, or conforming to those indicating herein, the combination will produce optimum results. Here, it will be noted that in some cases there are two sulfur compounds where the quaternized pyridine components are used. In all cases, the results are characterized by the fact that improvements in brightness, adherence, ductility are obtained under ordinary nickel plating conditions.
4 Table II ORGANIC SULFUR ADDITIVES Concentration range,
Compound2 grams/l1 ter Benzene sulfonamide p-Toluenesulfonamide 0.1-2 O-benzoylsulfonimide 0.1-1.5 O-carboxybenzenesulfonamide 0.1-2.0 Benzene sulfohydroxamic acid 0.1-2.0 N-benzenesulfonyl iminodiacetic acid 0.1-2.0 N-benzenesulfonyl iminodipropionic acid 0.1-2.0 Allyl sulfonic acid 1-10 Vinyl sulfonic acid 1-10 Sodium benzenesulfonate 1-10.0 Sodium metabenzenedisulfonate l-10.0 1,5 -naphthalene disulfonic acid 1-8 2,7-naphthalene disulfonic acid 1-8 Naphthalene trisulfonic acid 1-8 Table 111 Bath No. Addition Agents Grams] liter N-allyl 2-vinyl pyridinium chloride 005 1 o-Benzoyl sulfonamide 1. 0 Para toluenesnlfonamide 0. 6 N -allyl 4-vinyl pyridinium chloride dibutyl 009 2 phosphate.
o-Benzoyl sulfonimide..- 0. N-2 met;hallyl -vinyl py 009 3 Benzenesulfonamide. 1. 0 o-Benzoylsulfonimide 1.0 N-allyl 2-vinylpyridinium bromide. 0. 01 4 Benzenesulfonamide 1. 0 o-Benzoylsulfonimide 1.0 N -ally1 -vinyl pyridinium bron 006 5 o-Benzoylsulfonimide 1. 0 Para toluenesulfonamide 0. 6 N-2-1nethallyl Z-Vinylpyridininm bromide 0. 01 6 Para toluenesulfonamide 1. 0 o-Benzoyl sullonimide. 1. 0 7 N-allyl Z-vinyl pyridinium chloride 0.05 o-Benzoyl sulfonimide" 1. 5 8 {N-allyl 4-vinyl pyridinium chloride .009 Allyl sulfonic acid... 8.0
What is claimed is: 1. A compound having a formula given by the following:
(IJH=CHQ (I) [ID-011 13112 where R is selected from the group consisting of allyl and methallyl radicals, R is a vinyl group, and X is selected from the group consisting of bromide and chlorine.
. N-Z-methallyl 2-vinyl pyridinium bromide.
. N-allyl 2-vinyl pyridinium bromide.
. N-allyl 4-vinyl pyridinium bromide.
N-2-rnethallyl 4-vinyl pyridinium bromide.
. N-Z-methallyl 2-vinyl pyridinium chloride.
N-allyl 2-vinyl pyridinium chloride.
. N-allyl 4-vinyl pyridinium chloride.
. N-2-Inetha1lyl 4-vinyl pyridinium chloride.
No references cited.
WALTER A. MODANCE, Primary Examiner.
A. L. ROTMAN, Assistant Examiner.

Claims (1)

1. A COMPOUND HAVING A FORMULA GIVEN BY HE FOLLOWING :
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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3352766A (en) * 1964-12-21 1967-11-14 M & T Chemicals Inc Bright nickel plating process
US3880727A (en) * 1971-10-06 1975-04-29 Hoechst Ag Method of pretreating bands and sheets of steel for one-layer enameling, and electrolytic bath for use in connection therewith
US4743346A (en) * 1986-07-01 1988-05-10 E. I. Du Pont De Nemours And Company Electroplating bath and process for maintaining plated alloy composition stable
US4846941A (en) * 1986-07-01 1989-07-11 E. I. Du Pont De Nemours And Company Electroplating bath and process for maintaining plated alloy composition stable
US4849303A (en) * 1986-07-01 1989-07-18 E. I. Du Pont De Nemours And Company Alloy coatings for electrical contacts

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
None *

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3352766A (en) * 1964-12-21 1967-11-14 M & T Chemicals Inc Bright nickel plating process
US3880727A (en) * 1971-10-06 1975-04-29 Hoechst Ag Method of pretreating bands and sheets of steel for one-layer enameling, and electrolytic bath for use in connection therewith
US4743346A (en) * 1986-07-01 1988-05-10 E. I. Du Pont De Nemours And Company Electroplating bath and process for maintaining plated alloy composition stable
US4846941A (en) * 1986-07-01 1989-07-11 E. I. Du Pont De Nemours And Company Electroplating bath and process for maintaining plated alloy composition stable
US4849303A (en) * 1986-07-01 1989-07-18 E. I. Du Pont De Nemours And Company Alloy coatings for electrical contacts

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