Servizi Offerti
  Chromium plating
  Aged cars and motorcycles
  Décor complements
Supporto Clienti

This processing is getting by metallic nickel conversation in nickel ions of the anode which across nickeling solution. These ions run down on the cathode area (unnickeled piece)where they converte again into metallic nickel.

Ions discharge on the cathode is not the only possible reaction and, infact, a little percentage of current is spent during hydrogen ions discharge. Nickel deposition capacity is reduced in this way about of 3-7%, less than the 100% if all the current was used to deposit nickel atoms. If hydrogen ions concentration grows in the concentration (low Ph), it increases hydrogen ions discharge, that is gassy hydrogen develops to the cathode, and the nickel deposition speed goes down.

In normal condition, nickel dissolution capacity to the anode is of 100%, without oxyhydrogen ions discharge. But if Ph is high, it can have oxyhydrogen ions discharge instead of nickel dissolution, with oxygen developing which covert in passive the anode and edit current distribution between anode and cathode. This can influence on the nickel deposit quality and then it is very important to use some materials like 'S' Nickel or anodes abled to resist to the firing of passivation and to refill the solution with nickel ions into a vast gamma of exercise conditions.

Nickel quantity which can deposit itself on the cathode in a such time and with a such current is determinate from natural lows which control the reaction speed to the electrodes. In circular numbers and in perfect exercise conditions it means that a 27 current ampère could deposit in one hour 29 grams of nickel. But forasmuch a part of current is basically spent in secondary reactions, for example the hydrogen developing, the quantity of nickel deposited is about 28 grams. If the deposition speed is expressed, instead in weight, in deposit density terms produced in a such time, it will present a 12 nickel microns density on a one quad decimeter area for the passage of a one ampere current for one hour.


In an ideal nickeling solution, nickel should transfer from the anode to the cathode ( unnickeled piece)for to deposit on every cathode part an identical density. But this seldom happens.

Every solution has an electric resistence and almost every unnickeled piece presents some prominent parts whose areas are closer to the anode and grooved parts, farther . the current, which flows from the anode to the prominent areas will be major than current intended to go to the grooved areas, that is current density in ampere, for unit of area, will be major than the prominent parts because the electric resistence between anode and cathode will be least, had to the minor distance. In this way derives the nickeling current repartition and this is denoted like 'current distribution'. It means, inevitably, that grooved areas receive a minor density of nickel deposit , compared to the prominent areas. We can do much more to better the deposit equability with an rigorous design of the piece and with an attentive collocation of the pieces on the nickeling chases.

The ideal anode should not contain impurity and should completely deliquesce, without balance. It also should operate in a vast Ph range of solution and of current density (it presents high activity, it is passivated or depolarized).

Like in Watts' solutions, all nickel forms dissolve with a 100% of productivity in chlorid and Ph presence and in normal current density. It means that a well determinate nickel weight (1,094 grams) deliquesces with a 1 ampere passage for one hour. Applied that, except for in passivity cases, we don't assist a secondary reactions, the nickeling solution is always refilled by nickel ions in a constant beat which only dipends on current and time.

The first attempts with different forms of refinery nickel immediately denoted that, in certain cases, metal loss were inadmissibly elevated and the better material was the electrolytically refined nickel. During the practice there is always some balance and it is essencial to use anodic bags. It is important, when we extract the anodes from the bath, do it with a slow abstraction and avoid to shake possible balances, and pose them on the floor but is important hang them up with their braces. A strong quantity of balances is, apparently, a loss for the nickeler, especially if it contains metallic nickel fallen from the anode during the dissolution.


This solution, which forms the base of the major part of the polish nickeling traction solutions with organic additives, is cheap , simple and easy to control. It is also easy to maintain the purity. Nickel sulfate represents the main nickel ions source but we can obtain a deposition higher speeds, increasing the nickel chloride concentration.


This solution contains some additives which edit the nickel deposit formation to produce a perfectly brilliant area on which we can achieve chrome deposit without an intermediate polish. Aforetime, having the same result, people added some cobal sals to the bath, but in the modern patented solutions is presented an organic additives mix that give polisher deposites within a vast current density range.

From 1950, particular attentions is given to the decorative deposits corrosion resistence. The first polish deposit were quickly attachables from corrosion after brief periods of service. Corrosion causes research and on the deposits inefficiency have conducted to the nickeling systems introductions that assure the polish finishing required and, moreover, a satisfactioned duration in service when they are exposed to the atmospheric agents corrosive action.


In the polish nickel deposit, a part of additive molecules deposit itself with nickel, giving to it a strong structure, to thin bead. The deposit usually contains some sulfur that reduce the resistence to the corrosion, compared to a semi polish or mat nickel deposit , with no sulfur. The additives decompositions products, which stay in the solution, are eliminated through purification in continuous cycle on activated carbon. Whit a long- sighted additives choice, the caterers of galvanic materials have produced some patented solutions from which the impurities are selectively eliminated with the adapted treatment.


To reduce the barrel nickeling times, it needs to adopt high density of apparent current and then it needs polish nickeling solution. Such solutions are virtually solutions like Watts' to which have been added patented brilliantings. There are two kinds: (a) polish Nickeling Solutions to high chloride that can function with 12-16 volt of tensions, to give high current density and nickeling brief times . The deposit receives very well the chromium plating, but we can get exfoliation on pieces with alive arrises. Nickel deposit colour can tend to the yellowish. (b) polish nickeling solutions to high sulfate that, for the least conductibility compared to those to high chloride, have to function with higher tensions, between 12 and 20 volts.

Servizi di Nichelatura
Commercial info
Our experts are on your disposal:
081 737.23.25
From Monday to Friday
9.00 — 18.00 (GMT+1)
Galvanica Partenopea
Who we are
Contact us
Get a quotation
Notes and Info
Payment methods
Delivery times and
Privacy and Security
dei F.lli Lanciato S.r.l.

P. IVA 06099651215 - Iscriz. registro imprese Napoli - Numero REA: NA-795172 del 11/07/2008
Capitale Sociale interamente versato € 10.000,00