EP1507026A1 - Process for selective or complete inertisation of workpieces and system parts by means of non-reactive platings - Google Patents

Abstract

Process for selectively or completely coating substrates, workpieces or installation parts with a reactive coating in the chemical deposition of metals comprises an activating step, and an electrolytic deposition of an adhesion-resistant non-reactive step on regions of a substrate that are not to be metallized.

Description

This invention relates to a process for selective or complete Inertizing of substrates, workpieces and plant components by means of non-reactive Coatings in the chemical deposition process of metals.

In addition to electrolytic processes for the metallization of base materials are so-called electroless plating processes for a long time known. Under electroless or even chemical metallization is a chemical surface finishing of almost all metals and many To understand non-conductors. It differs in its chemical and mechanical features substantially of galvanic applied Metal coatings. Thus, the electroless coating based on metals on one autocatalytic process. In such a coating process finds a Reaction takes place on catalytically active surfaces. Here are the in the Depositing bath (electrolytes) contained metal ions to elemental metal reduced, while at least one reducing agent contained in the electrolyte is oxidized.

For the selective coating of substrates, workpieces or plant components, With metals, it is therefore necessary to use the areas that are not metallized should, with a non-catalytic acting respectively not electrically conductive Cover material or inertize. From those in the art already known processes for chemical nickel plating can be seen that individual components of the process apparatus to be used, such as the Container for the deposition bath, the racks for the substrates to be coated etc., be passivated prior to use to avoid unwanted coating Nickel and also to avoid unnecessary consumption of the electrolyte. For this purpose, the mostly stainless steel existing system parts such. B. Tanks, pumps, radiators or agitators etc., usually by the Passivated treatment with concentrated nitric acid. In addition, the Maintaining the passive state anodic potential at the plant part created. Despite these measures, however, it is necessary in regular Intervals to repeat the treatment with nitric acid. This does however for the coating operation a considerable cost and time-consuming Expenditure is because on the one hand the production must be interrupted and, since it nitric acid is a hazardous substance and expensive Safety measures taken to protect the environment and personnel Need to become.

Furthermore, methods are known in the art, wherein such Covering non-metallizing areas of a workpiece usually through the use of paints or plastic materials he follows. However, these methods of selective coverage or passivation provide Likewise, a significant process-related effort possibly subsequent removal of the passivation layer and removal the usually hardly recyclable residues at high disposal costs.

The invention is therefore based on the object , a process for the selective or complete formation of an inert coating on substrates, materials or equipment parts on which a chemical Metallabscheideprozeß can not start to provide in the process of electroless deposition of metals, wherein an undesirable coating certain areas of the Workpieces or plant parts without considerable cost and time consuming effort is avoided.

The object is achieved by a method for selective or complete inerting of substrates, workpieces or plant parts in the Separation process of metals solved that the treatment of a substrate, Workpiece or plant part, with an activation solution and the electrolytic Deposition of an adherent inertizing layer on non-metallizing Areas.

By the method according to the invention are those in the prior art known disadvantages in the selective metallization by the electrolytic Removal of an inertization layer eliminated. The average Coating times were simplified by performing the inertization considerably shortened, minimizes the disposal costs and thus a considerable achieved more economical process. This is mainly in the advantageous Composition of the electrolyte used for the inertization justified. Surprisingly, it turned out that in particular through the use of Chromium-containing electrolytes electrolytically on an inertization on the non-metallizing region of a substrate can be deposited, the one completely inert behavior in a process solution for the chemical separation of typical metals such as nickel, copper, silver, gold, tin, etc. shows. Even in the electrical contact with surfaces that the autocatalytic reaction of electroless deposition of metals are subject (eg, the uncoated Areas of a workpiece or plant components etc.), it comes to none Activation and thus also to no unwanted coating of inerted areas.

A selective or complete inert coating according to the invention can advantageously carried out on a variety of substrates. Thus, one is Coating of workpieces or plant components made of metal and / or Metal compounds or plastics possible, the plastics before metallized by other methods. This metallization can already be done partially or selectively.

Another advantage of the method is that the Separation process of metals by a passivation of the invention used plant components can be made more economical in addition. So is advantageously by the inerting of the electrolyte to the electroless Metallization containing the average life of the container Electrolyte bath considerably extended and the implementation of the metallization simplifies, among other things, the application of an anodic potential for Maintaining the passive state is eliminated. In addition, the Limited security measures and minimized costs accordingly become. Advantageously, in particular plant components consisting of Metal and / or metal compounds, preferably steel, particularly preferred Stainless steel, such as the containers for the Abscheidebäder or Racks for the workpieces to be coated with a non-reactive surface rendered inert. Such inertization allows the use of far and wide less expensive materials like conventional steels instead of the very expensive ones Stainless steels.

Depending on which substrates are selectively inertized or metallized should, or what additional properties the metal layers have are activated, the substrates are activated prior to inerting. This is special necessary for non-conductive substrates. Activation of the substrates may occur conventionally done. Advantageously, the activation takes place simultaneously with the inertization step. In this context, it has proved to be proven advantageous with the provided for inerting electrolyte Fluorides and / or fluorine-containing compounds to give a adequate activation of the material surface, in particular of To reach Edelstahloberflächen and thus a sticky assignment with the Inertisierungsschicht to ensure.

The process of inerting is carried out by electrolytic deposition of a non-reactive coating of a suitable electrolyte, which preferably has chromium, under application of a cathode current. Typically, for the deposition of chromium-containing layers (especially in so-called chromium baths) at temperatures in the range of 40 to 70 ° C current densities in the range of 10 to 50 A / dm ^{2 is} required. However, since this results in a considerable total current, which does not represent an appropriate expense in every case or for each inertization process, it has proved to be advantageous to deposit the inerting layer in a low current density range. Advantageously, an electrolyte is used, which at low temperatures, preferably in the range of 15 to 40 ° C, a sticky assignment with a non-reactive coating according to the invention below a current density of 10 A / dm ² , preferably below 5 A / dm ² allows , These can be so-called Kaltchrombäder. In principle, chromium wheels based on chromium (III) compounds of a different construction can also be used, for example baths from the company Enthone named Trichrolyte.

A subsequent electroless metallization of the non - rendered areas of the Substrate can be made in a conventional manner. advantageously, For this purpose, an electrolyte is used, which is usually in the electroless Metallization application finds.

In addition, the selectively applied inerting layer can follow the electroless metallization in a simple manner without manual effort be removed. This can be done by immersion in a dilute acid, or if such acid poses a danger to the substrate by immersion in an alkaline solution using an anodic current up to complete removal of the passivation layer.

For a detailed description of the invention, a preferred Embodiment of the method described, to which However, the invention can not be limited.

Example:

The electrolyte according to the invention for producing a selective non-reactive Coating on a substrate in the deposition process of metals continues in the Basically made of a fluoride and / or fluoride compound Activation solution and one or more chromium salts, preferably Chromic acid or drewärtige chromium compounds together.

200 bis 300 g/l Chrom (VI) Oxid

1 bis 3 g/l konzentrierte Schwefelsäure

0,02 bis 0,3 g/l Fluorid

0,2 bis 3 g/l Methansulfonsäure bzw. Methansulfonsäurederivate

glatte, dicke Schichten ohne Schichtdickenbegrenzung abgeschieden.At a bath temperature of 20 ° C and an applied voltage of 3 A / dm ² were from an electrolyte of the composition

200 to 300 g / l chromium (VI) oxide

1 to 3 g / l of concentrated sulfuric acid

0.02 to 0.3 g / l fluoride

0.2 to 3 g / l methanesulfonic acid or methanesulfonic acid derivatives

smooth, thick layers deposited without Schichtdickenbegrenzung.

Application examples for the method according to the invention and the electrolytes according to the invention are the coating of stainless steels with, in Reference to the subsequent metallization, inert chromium layers. Here can to the usual state of the art using a schlagnickel bath be waived. A direct selective or complete coating with a inert chrome layer is possible. In another favorable application of the The process of the invention and electrolytes is the coating of Interior of containers for chemical metallizing baths for prevention a metallization of these surfaces. Here, the container advantageously filled with the electrolyte according to the invention to the maximum filling envelope and then apply an appropriate voltage to the container for chemical metallization be applied. Particularly advantageous here the use of much more expensive stainless steel for containers, pumps, Heaters, stirrers, etc. can be omitted, since the means of Electrolytes according to the invention compared to coated surfaces chemical metallization baths are inert.

Another application example is the inside tinning of Badarmaturen after an outside chrome plating this in process according to the invention or with the electrolytes according to the invention. Of others can be achieved with the process or electrolyte according to the invention Ball valves by selective inerting in the places the aggressive media are exposed to nickel plating, while the surfaces are the abrasive wear can be chrome plated.

In another application, heat exchanger elements made of copper or Copper alloys for gas heaters selectively with an inert chrome layer be coated while cavities for corrosion protection reasons with a be provided chemical nickel coating. The chrome outdoor areas are Resistant to hot combustion gases while the water-bearing Interior against corrosion by water or other heat transfer media is stable.

Claims (12)

Process for the selective or complete coating of substrates, Workpieces or plant components with a non-reactive coating in the chemical deposition process of metals comprising one Activation step and the electrolytic deposition of an adhesive not reactive layer on non-metallizing areas of the substrate. A method according to claim 1, characterized in that the chemically deposited metal is at least one metal of the group consisting of copper, nickel, zinc, tin, lead, bismuth, palladium, silver, gold or platinum. Method according to one or more of claims 1 and 2, characterized in that a fluoride-containing solution is preferably used for activation. Method according to one or more of claims 1 to 3, characterized in that as substrates preferably workpieces or plant parts of metal and / or metal compounds, alloys or plastics are used. Method according to one or more of claims 1 to 4, characterized in that a layer of chromium-containing electrolyte is deposited to coat the non-electroless areas to be metallized. Method according to one or more of claims 1 to 5, characterized in that the non-reactive layer is electrodeposited by applying a cathode current to the region of the substrate to be coated. Method according to one or more of claims 1 to 6, characterized in that the non-reactive layer is deposited in a low current density range. Method according to one or more of claims 1 to 7, characterized in that the non-reactive layer is deposited at low temperatures. Method according to one or more of claims 1 to 8, characterized by the subsequent electroless metallization of not rendered inert by means of a non-reactive layer regions of the substrate. Method according to one or more of claims 1 to 9, characterized in that the non-reactive layer is optionally removed after the electroless metallization. Method according to one or more of claims 1 to 10, characterized in that the eventual removal of the non-reactive layer takes place after the electroless metallization by means of an acid. Method according to one or more of claims 1 to 10, characterized in that the possible removal of the non-reactive layer following the electroless metallization by means of an alkaline solution under anodic polarization.