EP1130128A1 - Process and apparatus for deposition of a coating by spraying a liquid - Google Patents

Abstract

Depositing a ceramic coating (10) on a substrate (11) comprises spraying a first coating solution (12) and a further coating solution (13) so the solutions chemically react with each other when they meet; and forming the reaction product as a coating on the substrate or converting into the coating in a further process step. An Independent claim is also included for a device for depositing a coating on a substrate comprising a sprayer (20) having devices arranged so that the coating solutions meet directly before or during spraying. Preferred Features: A precursor material (14) is used as the reaction product which is deposited on the substrate after spraying and converted into the coating.

Description

The invention relates to a method and a device for the deposition of a ceramic coating in particular on a substrate by spraying a liquid the genus of independent claims.

State of the art

Energy losses due to friction and wear of materials minimized by abrasion and corrosion Protective layers made of ceramic high-performance materials as known friction and wear reducing coatings. Such coatings are characterized by high mechanical Hardness, high temperature resistance and chemical stability against corrosive media.

For the deposition of such coatings there are a number of Processes like the sol-gel process, the sputtering, the Plasma spraying or PVD or CVD processes are known. Besides are also known wet chemical manufacturing processes which first synthesized coating solutions and then by dipping or spinning onto the surface to be coated Substrate are applied.

Thus, in K. Pae et al., Progress in Advanced Materials and Mechanics 1, Beijing, China, 1996, pages 570 to 573, a process for the production of nanocrystalline TiO ₂ particles via gas flow condensation is described. From F. Kirkbir et al., Chemical Letters, 5, 1998, pages 791 to 794, the conversion of titanium isopropoxide in a tubular reactor with steam to TiO ₂ particles is also known. V. Belov et al., J. Am. Ceram. Soc., 80, (4), 1997, pages 982 to 990, describe the production of ZrO ₂ particles by injecting a zirconium-containing solution into an aqueous ammonia solution. A review article on the subject of wet chemical coatings on metals, in particular on corrosion protection, was finally published by M. Guglielmi, Sol-Gel-Coatings on Metals, J. Sol-Gel Science and Technology, 8, (1997), pages 443 to 449.

Some of the above methods are disadvantageous very high process temperatures leading to a strong thermal Load on the coated base material or substrate and impairing its mechanical Properties.

Wet chemical processes also have the disadvantage that initially a wet film of an already finished coating solution is generated, which is then dried and then at high temperatures to the actual coating is implemented. In addition to the high thermal load of the Coating substrates also play the relatively high energy costs play an important role.

In order to achieve the layer thicknesses required for many applications It is also multiple in the range of a few micrometers required, the components to be coated several times immerse in the coating solution or this several times to hurl. Such multiple coatings mean however, an increased generation of local defects by external Influences as well as a considerable additional expenditure of time the production.

If, on the other hand, relatively thick wet films are already in one Process step to be applied occurs retrospectively often a strong shrinkage of these films, the is accompanied by cracking.

The object of the present invention is to develop a Method and an apparatus with which in particular ceramic, primarily in the field of corrosion and / or wear protection coatings that can be used in different compositions with the lowest possible Temperatures using a wet chemical process have it deposited on a substrate.

Advantages of the invention

The method according to the invention for depositing a coating, which is based on the principle of reactive spraying, and the device according to the invention the advantage of the prior art that this is particularly ceramic coatings of various compositions at low process temperatures using a wet chemical process on a surface to be coated Separate inexpensively and continuously if required to let.

The method according to the invention has the further advantage that about the reaction product that arises when spraying or precursor material also coatings on a substrate that cannot be synthesized or obtained Can be separated directly from a prepared solution are because, for example, when bringing the reactive components already insoluble or in the solution poorly soluble compounds are formed, which then are not or only under considerable process engineering Difficulties applied to the component to be coated can be. In addition, it is often undesirable in this case high temperatures to form the desired ceramic structure of the coating required.

Overall, the method according to the invention thus knows the essential Advantage on that the diverse, as coating solutions usable reactive components separately can be handled.

Another advantage of the method according to the invention lies also in the fact that the reaction product deposited on the substrate only a few, usually only two coating solutions is generated while known finish prepared coating solutions often from a variety consist of reactive components.

In addition, it is advantageously possible as a reaction product also to directly produce a solid material that according to spraying already solid coating on the substrate is present, or in a subsequent further process step by means of, for example, compression serving aftertreatment, in particular a heat treatment or radiation, in the coating to be produced is transferred.

Due to the possibility of separate storage and the targeted controlled meeting or mixing of the individual reactive components or coating solutions the reaction product or precursor material only immediately on the surface of the substrate to be coated or directly before or during spraying are also omitted procedural difficulties arising from a limited Shelf life or processability of the ready mixed Coating solution or sticking or soiling of the spraying device used.

The device according to the invention has the advantage that known techniques or spray devices that can only be slightly modified have to.

Advantageous developments of the invention result from the measures specified in the subclaims.

So the atomizing device according to the invention knows the coating solution advantageously a spray device with a nozzle or spray head. This nozzle or this spray head is based, for example, on an electrostatic one Principle of operation, the application of ultrasound or a so-called ink jet process. There is also the Use of a carrier gas in question. The spray device used Incidentally, is not just for use a nozzle or a spray head, but it can advantageously be used several nozzles that largely arranged arbitrarily and for example with swiveling holders and variable distance from the surface of the substrate are attached.

To carry out the heat treatment or radiation in the Another process step for compression and / or implementation the deposited in the first step Precursor material or reaction product to be generated Coating also serves a variety of known and technically manageable Method. So can the heat treatment or radiation using an oven, an infrared or UV lamp, using a laser, a microwave source, an electron beam or generally by resistive or inductive heating of the substrate. It is advantageous that in the implementation of the reaction product or of the precursor material initially created for the producing coating in the further process step the required process temperatures to those of the substrate is typically exposed at values from 50 ° C to 400 ° C lying, d. H. always far below the thermal load capacity of, for example, metallic substrates.

It is also particularly advantageous if they are used as coating solutions reactive components used at least largely only on the surface of the surface to be coated Meet substrate so that their chemical Reaction sets in.

drawings

The invention is based on the drawing and in the following Description explained in more detail. The figure shows one Principle sketch of a spray device with two separate Spray heads when spraying a liquid.

Embodiments

A first embodiment is explained with the help of the figure. A spray device 5 is provided for this purpose a first spray device 20 and a second, separate, separately controllable second spray device 21 having. The spray devices 20, 21 are each known Way on an automated controllable and swiveling holder arranged. The distance of the first and second spray device 20, 21 from one to coating substrate 11 can be set variably. In addition can the first and / or the second spray device 20, 21 with the aid of a control unit known per se be moved that the substrate 11 sprayed evenly becomes.

In detail, the figure provides that the first Spray device 20 a first coating solution 12 and the second spray device 21 a second coating solution is supplied as a further coating solution 13. This two coating solutions 12, 13 are by the corresponding spray devices 20, 21 each separately the substrate 11, for example a steel cylinder, a Pump piston or an aluminum or plastic component, sprayed on, and first occur, for example, in the form of finely atomized, especially microscale droplets from the spray devices 20, 21. On the substrate 11 hit these droplets of coating solutions 12, 13 then together, taking it to a chemical reaction Formation of an initially liquid reaction product in Form of a precursor material 14 comes. The reaction product can, for example, also take the form of a suspension of have nanoscale particles caused by the reaction of the coating solutions 12, 13 with each other in one from the reaction remaining solvents have arisen. The end the chemical reaction of the coating solutions 12, 13 precursor material 14 thus formed initially forms Intermediate product of a solid to be subsequently generated, for example ceramic coating 10, which in another Process step, in particular by thermal aftertreatment or radiation, then in the actual coating 10 is transferred.

Alternatively, it can occur when the coating solutions meet 12, 13 through their chemical reaction to form a solid reaction product, which already represents the finished coating or in a further process step by thermal compression is transferred into this.

The atomization of the coating solutions 12, 13 in the Spray device 5 also takes place, for example using a conventional carrier gas, using an electrostatic Atomization technology, using ultrasound or with a well-known ink jet system.

As an alternative to the embodiment shown in the figure be provided that the meeting of the first coating solution 12 and the further coating solution 13 also in time immediately before spraying it Coating solutions 12, 13 are carried out on the substrate 11. For this purpose, the spray device 5 then only has one spray device 20 on, which are connected to two separate supply lines is, on the one hand the first via these feed lines Coating solution 12 and on the other hand the further coating solution 13 fed to the first spray device 10 becomes. The supplied coating solutions 12, 13 thus mix immediately before spraying inside the spray device 20 and are mixed in such a way Condition sprayed through the nozzle so that when Spray already react chemically with each other and as Reaction product or the precursor material 14 on the substrate 11 hit. In this embodiment variant, therefore the reaction of the first coating solution 12 with the another coating solution 13 already at the or before spraying in the spray device 20. The Mix the first coating solution 12 with the other Coating solution 13 in the context of this embodiment can continue on the one hand through one of the actual Nozzle or the actual spray head immediately upstream Mixing device done, or on the other hand by direct Feed the two coating solutions 12, 13 in the nozzle or the spray head.

Important in the two proposed embodiments is always that the first coating solution 12 and the further coating solution 13 only in time in the immediate Proximity to or after spraying, so that the chemical reaction of the coating solutions 12, 13 only immediately before or during the Spraying or after hitting the separately sprayed Coating solutions 12, 13 are carried out on the substrate 11.

Incidentally, in the aforementioned design variants it can also be provided that the first coating solution 12 for example with the aid of the first spray device 20, and the further coating solution 13, for example with the help the second spray device 21, one after the other, in particular alternately, are sprayed onto the substrate 11 and there meet in the manner explained above and with each other react.

A material that can be converted into a ceramic coating or an organic or inorganic protective layer, in particular a corrosion or wear protection layer, or such is particularly suitable as the reaction product or precursor material 14 that results from the coinciding coating solutions 12, 13 due to the chemical reaction that occurs forms. Specifically, these are materials such as titanium oxides, zirconium oxides, silicon oxides, aluminum oxides, ZrSiO ₄ , LaPO ₄ , ZrP ₂ O ₇ or AlPO ₄ .

Preferably immediately after spraying on the precursor material 14 on the substrate 11 or alternatively the generation of a solid reaction product on the substrate 11 this then in a further process step in the area the sprayed surface of a heat treatment or Exposed to radiation with electromagnetic radiation.

This heat treatment or radiation can, for example by means of laser radiation over a period of a few microseconds or using a conventional furnace process over a period of up to several hours. With this heat treatment or radiation, this is done on the Surface of the substrate 11 deposited reaction product heated to temperatures from 50 ° C to several thousand ° C, for example a conversion of the precursor material 14 to induce in the coating 10 to be produced or a reaction product already separated in solid form to condense. The temperature of the substrate 11 in any case does not rise above 50 ° C to 400 ° C, preferably not above 300 ° C.

In addition to the use of a laser or an oven, for Heat treatment or radiation also use a Infrared lamp or a UV lamp as well as the radiation of microwaves or electron beam heating possible. In addition, other, generally known resistive or inductive heating principles for heating the substrate 11 are used.

In this context, it should also be noted that the Substrate 11 preferably with an integrated sample holder Heater is in contact with this sample holder either is planar or on one opposite the spraying devices 20, 21 rotating bracket is attached.

It is particularly advantageous if the heat treatment with the help one in the first spray device 20 and / or the second Spray device 21 integrated laser takes place.

After the further process step is thus on the substrate 11 a coating 10 a typical Has a thickness of 50 nanometers to 500 micrometers.

Preference is given to the device explained in the figure and the process carried out with it a coating 10 which produces a metal oxide, in particular silicon oxide, Aluminum oxide, titanium oxide or zirconium oxide, a metal carbide, especially silicon carbide, zirconium carbide, Boron carbide or titanium carbide, a metal nitride, in particular Silicon nitride, titanium nitride, boron nitride or silicon nitride, a phosphate, especially of zirconium, titanium, aluminum or an element of the lanthanides, or a mixture contains or consists of these materials.

The composition of the coating 10 results naturally by the choice of the coating solutions used 12, 13. So are suitable for the production of the aforementioned Coatings as first coating solution 12 and / or as a further coating solution 13, for example, a solution of readily soluble metal or silicon compounds, in particular reactive metal alkoxides or silanes. The solvent is for example an alcohol, a carboxylic acid, a ketone, an esther or water. As another coating solution 13 for reaction with the first coating solution 12 is water or an inorganic acid or Saline solution.

In particular, the use of a first coating solution 12 with a metal alkoxide contained therein and the use of water as a further coating solution 13 has the advantage that when the metal alkoxide comes into contact with the water splitting off alcohols and condensing the Metal alkoxides are formed with the formation of polymers. By a suitable choice of the amount of water supplied or of the alkoxide, an almost complete conversion can thus be carried out this alkoxide to a metal oxide or to one Reach pottery.

Because the resulting from the reaction of the metal alkoxide with water Reaction products, especially water or alcohol, are volatile, can ultimately be a dense, depending according to process conditions crystalline to amorphous coating be achieved.

In addition to solutions of metal alkoxides, the first coating solution is suitable 12 For example, solutions with acetates or nitrates of aluminum, zirconium, titanium or one of the elements of the lanthanides. This first coating solution 12 is used as a further coating solution 13 then for example a solution of a phosphate or a Phosphoric acid solution supplied. Specifically, the first is suitable Coating solution 12 a cerium acetate solution or a zirconium butoxide, while the further coating solution 13 diluted Is phosphoric acid or an ammonium phosphate solution. In these cases the two sprayed coating solutions react 12, 13 typically directly on the Substrate 11 to form an insoluble compound as Precursor material 14. A subsequent temperature treatment then causes the desired formation of a ceramic Protective layer as a coating 10.

In addition, the coating solutions 12, 13 in addition to reactive components that the chemical reaction cause each other, also a solid as Contain particles, i.e. the coating solutions 12, 13 are used as suspensions. This solid can on the one hand correspond to the resulting reaction product or on the other hand a different material, so that after the chemical reaction of the coating solutions 12, 13 to the reaction product on the substrate 11 finally a coating 10 is formed in which the solid particles from the coating solution in a matrix from one same or different material from the reaction product are embedded. In this way, the production of composite materials possible.

Are preferably suitable as solid particles in the coating solutions 12, 13 dry lubricants or substances that a shrinkage of the coating 10 obtained in the course of a reduce thermal aftertreatment or radiation.

Claims (18)

Method for depositing a ceramic coating (10) in particular on a substrate (11), a first coating solution (12) and at least one further coating solution (13) being sprayed, characterized in that the first coating solution (12) and at least one of the further ones Coating solutions (13) react chemically with one another when they meet and the reaction product formed on the substrate (11) forms the coating (10) or is transferred into the coating (10) in a further process step. A method according to claim 1, characterized in that a precursor material (14) is initially formed as the reaction product, deposited on the substrate (11) after spraying is, and in the further process step into the coating (10) is transferred. A method according to claim 1 or 2, characterized in that that the meeting of the first coating solution (12) and at least one of the further coating solutions (13) immediately before spraying or while spraying the first Coating solution (12) and the further coating solution (13) takes place. A method according to claim 1 or 2, characterized in that that the first coating solution (12) and at least one of the other coating solutions (13) at least largely only meet after spraying on the substrate (11). Method according to at least one of the preceding claims, characterized in that the first coating solution (12) and at least one of the other coating solutions (13) immediately before spraying inside a nozzle Spray device (20, 21) meet, the chemical Reaction sets in. Method according to at least one of the preceding claims, characterized in that the first coating solution (12) with the aid of a first spray device (20) and at least one of the other coating solutions (13) with the help of a second spray device (21) simultaneously or in succession, in particular alternately, are sprayed onto the substrate (11). Method according to at least one of the preceding claims, characterized in that the first coating solution (12) and at least one of the other coating solutions (13) meet immediately before spraying and with each other are mixed, whereby the chemical reaction begins, and that this mixture immediately after spraying (20, 21) is supplied, which they sprayed onto the substrate (11). Method according to at least one of the preceding claims, characterized in that the precursor material (14) the substrate (11) initially liquid or in the form of a suspension is deposited. Method according to at least one of the preceding claims, characterized in that the deposited on the substrate (10) Reaction product a ceramic coating or an organic or inorganic coating, especially one Corrosion or wear protection layer, forms, or that the reaction product or the precursor material (14) in the further Process step in a ceramic coating or organic or inorganic coating, especially one Corrosion or wear protection layer is transferred. Method according to at least one of the preceding claims, characterized in that the reaction product or Precursor material (14) in particular in the further process step immediately after spraying onto the substrate (11) a heat treatment or radiation with electromagnetic Radiation is subjected. Method according to at least one of the preceding claims, characterized in that as the first coating solution (12) and / or as a further coating solution (13) a solution of particularly readily soluble metal or silicon compounds, in particular metal alkoxides or silanes, is used. A method according to claim 10, characterized in that heat treatment at temperatures from 50 ° C to 400 ° C, in particular 90 ° C to 300 ° C. Method according to at least one of the preceding claims, characterized in that as a further coating solution (13) water or a solution of one or more metal or silicon compounds, in particular of metal alkoxides or Silanes is used. Apparatus for depositing a coating (10) on a substrate (11) by spraying a liquid, in particular for carrying out the method according to at least one of the preceding claims, with a first spray device (20) which contains a first coating solution (12) and at least one further one , when it meets the first coating solution, a coating product (13) that reacts chemically to form a reaction product, in particular a precursor material (14), can be supplied, characterized in that the first spray device (20) has means such that the meeting of the first coating solution ( 12) and the further coating solution (13) immediately before spraying or during spraying in the spray device (20). Device for depositing a coating (10) on a substrate (11) by spraying a liquid, in particular for carrying out the method according to at least one of claims 1 to 13, with a first spray device (20) to which a first coating solution (12) can be fed , and at least one further spray device (21) which can be supplied with at least one further coating solution (13) which chemically reacts with the first coating solution to form a reaction product, characterized in that the first and the further spray device (20) are arranged in this way that the meeting of the first coating solution (12) and the further coating solution (13) takes place at least largely only after the spraying. Device according to claim 14 or 15, characterized in that that other means of heat treatment and / or radiation of the substrate (11) are provided. Device according to claim 14 or 15, characterized in that that the agent is a nozzle, a spray head or a feed line to the nozzle or spray head. Device according to claim 14 or 15, characterized in that that the first and / or the further spray device (20, 21) is arranged movably and / or that the substrate (11) on a movable relative to the spray device (20, 21) Substrate carrier is arranged.

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