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Nickel electroplating

October 21, 2023

Nickel electroplating is a technique of electroplating a thin layer of nickel onto a metal object. The nickel layer can be decorative, provide corrosion resistance, wear resistance, or used to build up worn or undersized parts for salvage purposes.[1][2]

Overview Edit

Nickel electroplating is a process of depositing nickel onto a metal part. Parts to be plated must be clean and free of dirt, corrosion, and defects before plating can begin.[3] To clean and protect the part during the plating process, a combination of heat treating, cleaning, masking, pickling, and etching may be used.[1] Once the piece has been prepared it is immersed into an electrolyte solution and is used as the cathode. The nickel anode is dissolved into the electrolyte to form nickel ions (Ni2+). Just like in other electrodeposition processes, the ions travel through the solution and deposit on the cathode.[4][5]

The anode efficiency for nickel dissolution is close to 100%, unless due to problems with the process anode becomes passive (and its efficiency thus 0). The cathode efficiency depends on the process and varies between 90 and 97%. Due to this mismatch, during the plating the nickel concentration in the solution and the pH will slowly rise.[6] The process takes minutes to hours depending on the current density and the intended thickness of the plating.[7]

History Edit

The nickel electroplating was developed in the first half of the 19th century, with notable experiments made by Golding Bird (1837) and nickel nitrate patent by Joseph Shore (1840). The first practical recipe, an aqueous solution of nickel and ammonium sulfates, was invented by Böttger in 1843 and was in use for 70 year.[8] The commercial success was achieved by Isaac Adams Jr., whose patent for a solution of nickel ammonium sulfate, while similar to Böttger's, had neutral pH that made the process easier to control. Adams enjoyed a near-monopoly in nickel plating from 1869 to 1886, when the consumption of nickel for plating reached 135 tons.[4] In the US, Remington tried to use the nickel ammonium chloride solution (1868), in the process establishing the anode construction in the form of a platinum basket filled with nickel pieces,[4] Edward Weston initiated the use of boric acid (patent issued in 1878),[9] Bancroft figured out the role of chlorides in dissolving the anode (1906).[4][10]. Finally, Oliver P. Watts in 1916 established the Watts bath, variations of which are still widely used for decorative plating, with sulfamate solutions challenging it in the engineering applications.[4]

Types and chemistry Edit

Watts baths Edit

A Watts bath, named for its inventor Oliver Patterson Watts, is an aqueous electrolyte solution for plating nickel from a nickel anode. It can deposit both bright and semi-bright nickel. Bright nickel is typically used for decorative purposes and corrosion protection. Semi-bright deposits are used for engineering applications where high corrosion resistance, ductility or electrical conductivity is important, and a high luster is not required.[2][11][12]

Bath composition Edit

Chemical Name Formula Bright[11] Semi-bright[11]
Metric US Metric US
Nickel sulfate NiSO4·6H2O 150–300 g/L 20–40 oz/gal 225–300 g/L 30–40 oz/gal
Nickel chloride NiCl2·6H2O 60–150 g/L 8–20 oz/gal 30–45 g/L 4–6 oz/gal
Boric acid H3BO3 37–52 g/L 5–7 oz/gal 37–52 g/L 5–7 oz/gal

Operating conditions Edit

  • Temperature: 40-65 °C
  • Cathode current density: 2-10 A/dm2
  • pH: 4.5-5

Brighteners Edit

  • Carrier brighteners (e.g. paratoluene sulfonamide, benzene sulphonic acid) in concentration 0.75-23 g/L. Carrier brighteners contain sulfur providing uniform fine grain structure of the nickel plating.[5]
  • Levelers, second class brighteners (e.g. allyl sulfonic acid, formaldehyde chloral hydrate) in concentration 0.0045-0.15 g/L produce (in combination with carrier brighteners) brilliant deposit.[5]
  • Auxiliary brighteners (e.g. sodium allyl sulfonate, pyridinium propyl sulfonate) in concentration 0.075-3.8 g/L.[5]
  • Inorganic brighteners (e.g. cobalt, zinc) in concentration 0.075-3.8 g/L. Inorganic brighteners impart additional lustre to the coating.[5]

Type of the added brighteners and their concentrations determine the deposit appearance: brilliant, bright, semi-bright, satin.

Nickel sulfamate Edit

Sulfamate nickel plating is used for many engineering applications. It is deposited for dimensional corrections, abrasion and wear resistance, high efficiency coating and corrosion protection. It is also used as an undercoat for chromium.[2][13]

Bath composition Edit

Chemical name Formula Bath concentration[5]
Metric US
Nickel sulfamate Ni(SO3NH2)2 300-450 g/L 40–60 oz/gal
Nickel chloride NiCl2·6H2O 0-30 g/L 0–4 oz/gal
Boric acid H3BO3 30-45 g/L 4–6 oz/gal

Operating conditions Edit

  • Temperature: 40-60 °C[5]
  • Cathode current density: 2-25 A/dm2[5]
  • pH: 3.5-4.5[5]

All-chloride Edit

All-chloride solutions allow for the deposition of thick nickel coatings. They do this because they run at low voltages. However, the deposition has high internal stresses.[2][5]

Chemical name Formula Bath concentration[5]
Nickel chloride NiCl2·6H2O 30–40 oz/gal
Boric acid H3BO3 4–4.7 oz/gal

Sulfate-chloride Edit

A sulfate-chloride bath operates at lower voltages than a Watts bath and provide a higher rate of deposition. Although internal stresses are higher than the Watts bath, they are lower than that of an all-chloride bath.[2][5]

Chemical name Formula Bath concentration[5]
Nickel sulfate NiSO4·6H2O 20–30 oz/gal
Nickel chloride NiCl2·6H2O 20–30 oz/gal
Boric acid H3BO3 4–6 oz/gal

All-sulfate Edit

An all-sulfate solution is used for electro-depositing nickel where the anodes are insoluble. For example, plating the insides of steel pipes and fittings may require an insoluble anode.[2][12]

Chemical name Formula Bath concentration[5]
Nickel sulfate NiSO4·6H2O 30–53 oz/gal
Boric acid H3BO3 4–6 oz/gal

Hard nickel Edit

A hard nickel solution is used when a high tensile strength and hardness deposit is required.[2][5]

Chemical name Formula Bath concentration[5] Metric
Nickel sulfate NiSO4·6H2O 24 oz/gal 179.7g/L
Ammonium chloride NH4Cl 3.3 oz/gal 24.7 g/L
Boric acid H3BO3 4 oz/gal 29.96 g/L

Black nickel Edit

"Black nickel" is a dark coating that consists primarily of nickel sulfide and metallic zinc and nickel.[14] It is typically plated on brass, bronze, or steel in order to produce a non-reflective surface.[15] This type of plating is used for decorative and military purposes and does not offer much protection.[1][2][15]

Chemical name Formula Bath concentration[15]
Nickel ammonium sulfate NiSO4·(NH4)2SO4·6H2O 8 oz/gal
Zinc sulfate ZnSO4 1.0 oz/gal
Sodium thiocyanate NaCNS 2 oz/gal

Applications Edit

Decorative coating Edit

Decorative bright nickel is used in a wide range of applications. It offers a high luster finish, corrosion protection, and wear resistance. In the automotive industry bright nickel can be found on bumpers, rims, exhaust pipes and trim. It is also used for bright work on bicycles and motorcycles. Other applications include hand tools and household items such as lighting and plumbing fixtures, wire racks, firearms, and appliances.[11]

Modern coating technology makes deposited nickel to appear mirror-bright with no need of polishing, multi-layer applications are frequently used to improve the corrosion resistance of coated steel, zinc, copper, aluminum, and other metals. In order to prevent tarnishing, decorative electroplated nickel is typically coated with a thin layer of chromium.[8]

Engineering applications Edit

Engineering nickel is used where brightness is not desired. Non decorative applications provide wear and corrosion protection as well as low-stress buildups for dimensional recovery,[11][16] nickel or its nickel alloys usually having matte or dull finish.[8] The method can be used for making nanocomposite wear resistance coatings.[17][18]

Nickel electroforming has nickel plating applied for fabrication of nickel products. For example, nickel can be deposited onto a mandrel and then lifted off the latter, creating a nickel-only part.[8]

See also Edit

References Edit

  1. ^ a b c "QQ-N-290 A NICKEL PLATING". www.everyspec.com. Retrieved 2018-02-25.
  2. ^ a b c d e f g h Ian Rose; Clive Whittington (2014). "Nickel Plating Handbook". Nickel Institute.
  3. ^ "MIL-P-27418 PLATING SOFT NICKEL ELECTRO-DEPOSITED BATH". www.everyspec.com. Retrieved 2018-02-25.
  4. ^ a b c d e Di Bari 2011, p. 80.
  5. ^ a b c d e f g h i j k l m n o p "Nickel electroplating [SubsTech]". www.substech.com. Retrieved 2018-02-25.
  6. ^ Di Bari 2011, p. 81.
  7. ^ Di Bari 2011, p. 82.
  8. ^ a b c d Di Bari 2011, p. 79.
  9. ^ Dubpernell 1959, p. 39.
  10. ^ Dubpernell 1959, p. 40.
  11. ^ a b c d e Snyder, Dr. Donald. "Nickel Electroplating". www.pfonline.com. Retrieved 2018-02-25.
  12. ^ a b "NickelElectroplating.pdf" (PDF). Retrieved 25 February 2018.
  13. ^ "We'll find the optimal approach to coating your parts. No one can beat Bales' wide array of engineered coatings and finishes".
  14. ^ Ibrahim, Magdy A. M. (2005). "Black nickel electrodeposition from a modified Watts bath". Journal of Applied Electrochemistry. 36 (3): 295–301. doi:10.1007/s10800-005-9077-8. ISSN 0021-891X. S2CID 95324802.
  15. ^ a b c "MIL-P-18317 PLATING BLACK NICKEL ON BRASS BRONZE OR". www.everyspec.com. Retrieved 2018-02-25.
  16. ^ Davis, Joseph R. (2000-01-01). Nickel, Cobalt, and Their Alloys. ASM International. ISBN 9780871706850. Retrieved 9 August 2016.
  17. ^ Mosallanejad, M. H.; Shafyei, A.; Akhavan, S. (18 April 2016). "Simultaneous co-deposition of SiC and CNT into the Ni coating". Canadian Metallurgical Quarterly. 55 (2): 147–155. Bibcode:2016CaMQ...55..147M. doi:10.1080/00084433.2016.1150406. S2CID 138392838. Retrieved 9 August 2016.
  18. ^ Zhang, Sam (2010-06-18). Nanostructured Thin Films and Coatings: Mechanical Properties. Taylor & Francis. ISBN 9781420094022. Retrieved 9 August 2016.

Sources Edit

  • Di Bari, George A. (14 February 2011). "Electrodeposition of nickel" (PDF). In Mordechay Schlesinger; Milan Paunovic (eds.). Modern Electroplating (5 ed.). John Wiley & Sons. pp. 79–114. ISBN 978-1-118-06314-9. OCLC 1037918105.
  • Dubpernell, George (1959). "The story of nickel plating" [reprinted in Plating & Surface Finishing, April 2006, pp. 34-43] (PDF). Plating. 46 (6): 599–616.
  • Nebiolo, William P. (August 2022). "The History of Electroplating And A Historical Review of the Evolution of NASF" (PDF). NASF Surface Technology White Papers. NASF. 86 (11): 1–14.

October 21, 2023
nickel, electroplating, technique, electroplating, thin, layer, nickel, onto, metal, object, nickel, layer, decorative, provide, corrosion, resistance, wear, resistance, used, build, worn, undersized, parts, salvage, purposes, contents, overview, history, type. Nickel electroplating is a technique of electroplating a thin layer of nickel onto a metal object The nickel layer can be decorative provide corrosion resistance wear resistance or used to build up worn or undersized parts for salvage purposes 1 2 Contents 1 Overview 1 1 History 2 Types and chemistry 2 1 Watts baths 2 1 1 Bath composition 2 1 2 Operating conditions 2 2 Brighteners 2 3 Nickel sulfamate 2 3 1 Bath composition 2 3 2 Operating conditions 2 4 All chloride 2 5 Sulfate chloride 2 6 All sulfate 2 7 Hard nickel 2 8 Black nickel 3 Applications 3 1 Decorative coating 3 2 Engineering applications 4 See also 5 References 6 SourcesOverview EditNickel electroplating is a process of depositing nickel onto a metal part Parts to be plated must be clean and free of dirt corrosion and defects before plating can begin 3 To clean and protect the part during the plating process a combination of heat treating cleaning masking pickling and etching may be used 1 Once the piece has been prepared it is immersed into an electrolyte solution and is used as the cathode The nickel anode is dissolved into the electrolyte to form nickel ions Ni2 Just like in other electrodeposition processes the ions travel through the solution and deposit on the cathode 4 5 The anode efficiency for nickel dissolution is close to 100 unless due to problems with the process anode becomes passive and its efficiency thus 0 The cathode efficiency depends on the process and varies between 90 and 97 Due to this mismatch during the plating the nickel concentration in the solution and the pH will slowly rise 6 The process takes minutes to hours depending on the current density and the intended thickness of the plating 7 History Edit The nickel electroplating was developed in the first half of the 19th century with notable experiments made by Golding Bird 1837 and nickel nitrate patent by Joseph Shore 1840 The first practical recipe an aqueous solution of nickel and ammonium sulfates was invented by Bottger in 1843 and was in use for 70 year 8 The commercial success was achieved by Isaac Adams Jr whose patent for a solution of nickel ammonium sulfate while similar to Bottger s had neutral pH that made the process easier to control Adams enjoyed a near monopoly in nickel plating from 1869 to 1886 when the consumption of nickel for plating reached 135 tons 4 In the US Remington tried to use the nickel ammonium chloride solution 1868 in the process establishing the anode construction in the form of a platinum basket filled with nickel pieces 4 Edward Weston initiated the use of boric acid patent issued in 1878 9 Bancroft figured out the role of chlorides in dissolving the anode 1906 4 10 Finally Oliver P Watts in 1916 established the Watts bath variations of which are still widely used for decorative plating with sulfamate solutions challenging it in the engineering applications 4 Types and chemistry EditWatts baths Edit A Watts bath named for its inventor Oliver Patterson Watts is an aqueous electrolyte solution for plating nickel from a nickel anode It can deposit both bright and semi bright nickel Bright nickel is typically used for decorative purposes and corrosion protection Semi bright deposits are used for engineering applications where high corrosion resistance ductility or electrical conductivity is important and a high luster is not required 2 11 12 Bath composition Edit Chemical Name Formula Bright 11 Semi bright 11 Metric US Metric USNickel sulfate NiSO4 6H2O 150 300 g L 20 40 oz gal 225 300 g L 30 40 oz galNickel chloride NiCl2 6H2O 60 150 g L 8 20 oz gal 30 45 g L 4 6 oz galBoric acid H3BO3 37 52 g L 5 7 oz gal 37 52 g L 5 7 oz galOperating conditions Edit Temperature 40 65 C Cathode current density 2 10 A dm2 pH 4 5 5Brighteners Edit Carrier brighteners e g paratoluene sulfonamide benzene sulphonic acid in concentration 0 75 23 g L Carrier brighteners contain sulfur providing uniform fine grain structure of the nickel plating 5 Levelers second class brighteners e g allyl sulfonic acid formaldehyde chloral hydrate in concentration 0 0045 0 15 g L produce in combination with carrier brighteners brilliant deposit 5 Auxiliary brighteners e g sodium allyl sulfonate pyridinium propyl sulfonate in concentration 0 075 3 8 g L 5 Inorganic brighteners e g cobalt zinc in concentration 0 075 3 8 g L Inorganic brighteners impart additional lustre to the coating 5 Type of the added brighteners and their concentrations determine the deposit appearance brilliant bright semi bright satin Nickel sulfamate Edit Sulfamate nickel plating is used for many engineering applications It is deposited for dimensional corrections abrasion and wear resistance high efficiency coating and corrosion protection It is also used as an undercoat for chromium 2 13 Bath composition Edit Chemical name Formula Bath concentration 5 Metric USNickel sulfamate Ni SO3NH2 2 300 450 g L 40 60 oz galNickel chloride NiCl2 6H2O 0 30 g L 0 4 oz galBoric acid H3BO3 30 45 g L 4 6 oz galOperating conditions Edit Temperature 40 60 C 5 Cathode current density 2 25 A dm2 5 pH 3 5 4 5 5 All chloride Edit All chloride solutions allow for the deposition of thick nickel coatings They do this because they run at low voltages However the deposition has high internal stresses 2 5 Chemical name Formula Bath concentration 5 Nickel chloride NiCl2 6H2O 30 40 oz galBoric acid H3BO3 4 4 7 oz galSulfate chloride Edit A sulfate chloride bath operates at lower voltages than a Watts bath and provide a higher rate of deposition Although internal stresses are higher than the Watts bath they are lower than that of an all chloride bath 2 5 Chemical name Formula Bath concentration 5 Nickel sulfate NiSO4 6H2O 20 30 oz galNickel chloride NiCl2 6H2O 20 30 oz galBoric acid H3BO3 4 6 oz galAll sulfate Edit An all sulfate solution is used for electro depositing nickel where the anodes are insoluble For example plating the insides of steel pipes and fittings may require an insoluble anode 2 12 Chemical name Formula Bath concentration 5 Nickel sulfate NiSO4 6H2O 30 53 oz galBoric acid H3BO3 4 6 oz galHard nickel Edit A hard nickel solution is used when a high tensile strength and hardness deposit is required 2 5 Chemical name Formula Bath concentration 5 MetricNickel sulfate NiSO4 6H2O 24 oz gal 179 7g LAmmonium chloride NH4Cl 3 3 oz gal 24 7 g LBoric acid H3BO3 4 oz gal 29 96 g LBlack nickel Edit Black nickel is a dark coating that consists primarily of nickel sulfide and metallic zinc and nickel 14 It is typically plated on brass bronze or steel in order to produce a non reflective surface 15 This type of plating is used for decorative and military purposes and does not offer much protection 1 2 15 Chemical name Formula Bath concentration 15 Nickel ammonium sulfate NiSO4 NH4 2SO4 6H2O 8 oz galZinc sulfate ZnSO4 1 0 oz galSodium thiocyanate NaCNS 2 oz galApplications EditDecorative coating Edit Decorative bright nickel is used in a wide range of applications It offers a high luster finish corrosion protection and wear resistance In the automotive industry bright nickel can be found on bumpers rims exhaust pipes and trim It is also used for bright work on bicycles and motorcycles Other applications include hand tools and household items such as lighting and plumbing fixtures wire racks firearms and appliances 11 Modern coating technology makes deposited nickel to appear mirror bright with no need of polishing multi layer applications are frequently used to improve the corrosion resistance of coated steel zinc copper aluminum and other metals In order to prevent tarnishing decorative electroplated nickel is typically coated with a thin layer of chromium 8 Engineering applications Edit Engineering nickel is used where brightness is not desired Non decorative applications provide wear and corrosion protection as well as low stress buildups for dimensional recovery 11 16 nickel or its nickel alloys usually having matte or dull finish 8 The method can be used for making nanocomposite wear resistance coatings 17 18 Nickel electroforming has nickel plating applied for fabrication of nickel products For example nickel can be deposited onto a mandrel and then lifted off the latter creating a nickel only part 8 See also EditElectroless nickel immersion gold Electroless nickel plating Electroplating Chrome platingReferences Edit a b c QQ N 290 A NICKEL PLATING www everyspec com Retrieved 2018 02 25 a b c d e f g h Ian Rose Clive Whittington 2014 Nickel Plating Handbook Nickel Institute MIL P 27418 PLATING SOFT NICKEL ELECTRO DEPOSITED BATH www everyspec com Retrieved 2018 02 25 a b c d e Di Bari 2011 p 80 a b c d e f g h i j k l m n o p Nickel electroplating SubsTech www substech com Retrieved 2018 02 25 Di Bari 2011 p 81 Di Bari 2011 p 82 a b c d Di Bari 2011 p 79 Dubpernell 1959 p 39 Dubpernell 1959 p 40 a b c d e Snyder Dr Donald Nickel Electroplating www pfonline com Retrieved 2018 02 25 a b NickelElectroplating pdf PDF Retrieved 25 February 2018 We ll find the optimal approach to coating your parts No one can beat Bales wide array of engineered coatings and finishes Ibrahim Magdy A M 2005 Black nickel electrodeposition from a modified Watts bath Journal of Applied Electrochemistry 36 3 295 301 doi 10 1007 s10800 005 9077 8 ISSN 0021 891X S2CID 95324802 a b c MIL P 18317 PLATING BLACK NICKEL ON BRASS BRONZE OR www everyspec com Retrieved 2018 02 25 Davis Joseph R 2000 01 01 Nickel Cobalt and Their Alloys ASM International ISBN 9780871706850 Retrieved 9 August 2016 Mosallanejad M H Shafyei A Akhavan S 18 April 2016 Simultaneous co deposition of SiC and CNT into the Ni coating Canadian Metallurgical Quarterly 55 2 147 155 Bibcode 2016CaMQ 55 147M doi 10 1080 00084433 2016 1150406 S2CID 138392838 Retrieved 9 August 2016 Zhang Sam 2010 06 18 Nanostructured Thin Films and Coatings Mechanical Properties Taylor amp Francis ISBN 9781420094022 Retrieved 9 August 2016 Sources EditDi Bari George A 14 February 2011 Electrodeposition of nickel PDF In Mordechay Schlesinger Milan Paunovic eds Modern Electroplating 5 ed John Wiley amp Sons pp 79 114 ISBN 978 1 118 06314 9 OCLC 1037918105 Dubpernell George 1959 The story of nickel plating reprinted in Plating amp Surface Finishing April 2006 pp 34 43 PDF Plating 46 6 599 616 Nebiolo William P August 2022 The History of Electroplating And A Historical Review of the Evolution of NASF PDF NASF Surface Technology White Papers NASF 86 11 1 14 Retrieved from https en wikipedia org w index php title Nickel electroplating amp oldid 1181168603, wikipedia, wiki, book, books, library,

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