DE102009024804A1 - Component useful as a condenser tube or a condenser plate in power plant applications, comprises a substrate surface, which is made of zinc or zinc alloy and formed by a galvanized layer and on which a chromate layer is applied - Google Patents

Abstract

The component comprises a substrate surface, which is made of zinc or zinc alloy and on which a chromate layer is applied, where particles made of silicon oxide and/or particles made of titanium oxide are embedded in the chromate layer and are exposed to the surface of the component. The chromate layer is free of chromium (VI). The substrate surface is formed by a galvanized layer, which is applied to the metallic component material (12) such as steel or stainless steel. The surface of the component is provided with a surface seal, which consists of silicone solid resin. The component comprises a substrate surface, which is made of zinc or zinc alloy and on which a chromate layer is applied, where particles made of silicon oxide and/or particles made of titanium oxide are embedded in the chromate layer and are exposed to the surface of the component. The chromate layer is free of chromium (VI). The substrate surface is formed by a galvanized layer, which is applied to the metallic component material (12) such as steel or stainless steel. The surface of the component is provided with a surface seal, which consists of silicone solid resin, into which the hydrophobic silicic acid and/or hydrophobic aluminum oxide are incorporated. The surface seal additionally contains Aeroxide(RTM: Very fine fumed metal oxide with a high specific surface area) LE1 and/or LE2. The particles are implemented as nanoparticles. An independent claim is included for a method for producing a corrosion protection coating on a substrate surface made of zinc or zinc alloy.

Description

The The invention relates to a component having a substrate surface made of zinc or a zinc alloy, on which a chromating layer is applied. Moreover, the invention relates to a method for producing a corrosion protection layer on a substrate surface of zinc or a zinc alloy, in which the substrate surface a chromating treatment to form a chromating layer is subjected.

A component of the type specified or a method of the type specified, for example, from DE 103 05 450 A1 known. Thereafter, a zinc surface can be protected against corrosion, for example by means of a so-called black passivation. The black passivation is a chromating treatment. This can be done with incorporation of chromium (VI). However, the use of chromium (VI) should be avoided because of the harmful effects. According to the DE 103 05 450 A1 Therefore, it is alternatively proposed to prepare the chromating layer using chromium (III). For this purpose, however, it is necessary in addition to an activator, such. Example, a phosphoric acid ester, in particular a Phosphorsäurealkyl-, such as isopropyl ester, to introduce into the coating solution for the chromating treatment.

The chromating can be done in particular on galvanized components, the galvanizing example, from the DE 20 2006 013 555 U1 is known.

The The object of the invention is a component with a corrosion protection layer or a method for producing this corrosion protection layer specify, wherein the corrosion protection layer in addition should be difficult to be wetted.

These The object is achieved according to the invention with the component specified above solved that in the chromating layer of particles Silica and / or particles of titanium oxide are incorporated, the exposed on the surface of the component. These particles unfold strongly hydrophobic on the surface of the component Properties, which is why a heavy wettability example is generated for water. Therefore, the thus coated Components, for example, for use as capacitor components for water vapor, in particular as condenser tubes or Capacitor plates, as used in power plant construction. Especially it is advantageous if the chromating layer at least is substantially free of chromium (VI). This will be advantageous the use of toxic chromium (VI) avoided.

According to one particular embodiment of the invention, it is provided that the Substrate surface for chromating by a Galvanizing layer is formed, which in turn on the metallic component material, especially steel or stainless steel, is applied. The component material can be cost-based and constructive to be selected. The effective corrosion protection by The chromating and galvanizing causes the component as well can be used under difficult environmental conditions. For example become capacitor components for power plant construction so far Primarily made of titanium, for effective corrosion protection to reach. However, these components can also be used according to the invention be made of stainless steel, wherein the stainless steel in the inventive Zinc plated and then chromated. By the heavy wettability can be the capacitor components coated in this way advantageous also with a high efficiency for the condensation be used. This is explainable by that the large wetting angle for water on the poorly wettable surface of the mechanism of a drop condensation can be used on the capacitor component, with respect to the Efficiency of a normally occurring film condensation the water is superior.

Furthermore has been shown that the layers of the invention their hydrophobic properties over a longer period Period can be maintained, so that the efficiency the condensation on the capacitor component over a longer period Operating time can be used. This effect leaves improve if, according to another Embodiment of the invention, the surface of the component provided with a surface seal, the a silicone solid resin, in the hydrophobic silica and / or hydrophobic alumina is incorporated. The so produced actual surface of the component points through the use hydrophobic silica and / or hydrophobic alumina a heavy wettability in the manner already described on. Furthermore A surface roughness sets in, which self-cleaning Properties of the surface according to the so-called lotus effect supported. In the event that the surface seal is injured or worn away due to longer operating times the underlying chromating layer is available, which also for the reasons already explained has a severe wettability.

Especially It is advantageous if the surface seal in addition contains an aerosol LE1 and / or LE2 from EVONIK. These aeroxides advantageously support the formation a lotus effect enhancing surface texture.

The Hydrophobing of the surface is particularly advantageous effective when used as particles nanoparticles. This can be with the favorable surface-volume ratio explain of nanoparticles, so that beneficial to production the desired effect comparatively little material must be used. As nanoparticles in the context of the invention become particles with a mean size of at most 100 nanometers understood.

The The above object is achieved by the invention Method solved in that in the chromating layer Particles of silicon oxide and / or particles of titanium oxide are incorporated, which are exposed on the surface of the component. The advantages the layer produced in this way are already explained Service.

Advantageously, the chromating treatment can be carried out by applying a chromium (III) -containing, in particular chromium (VI) -free chromating solution to the substrate surface, into which an aerosil and / or aeroxide is admixed. These aerosils and aeroxides have a negative electrostatic charge and can therefore be processed at pH values between 2.5 and 3.5. This pH corresponds to the working range, which can typically be adjusted in chromating and especially in the chromating after the DE 103 05 450 A1 is used.

The group of aerosils is conducive to the preparation of the hydrophobic silica in the chromating layer. For example, substances having the trade names RY 50, NY 50, RY 200, RY 200S and RY 300 from EVONIC can be used as aerosils. The aeroxides are used to produce the hydrophobic titanium oxide. Here, for example, the substance with the trade name TiO ₂ NK T90 from the company EVONIC can be used.

According to one advantageous embodiment of the invention Method can be provided that in one on the chromating treatment following coating step in an organic solvent dissolved silicone resin applied and cured is, wherein in the solution a hydrophobic silica and / or a hydrophobic aerosol are dispersed. This leaves a surface seal on the chromating layer manufacture, which has a silicone resin as a matrix. Here can For example, a substance with the trade name SILRES from the company WACKER use. Useful hydrophobic silicas For example, a substance with the trade name SIERNAT D 17 or the group of Aerosils R 972, R 974, R 805, R 812 and R 816 to increase scratch resistance and improvement the mechanical properties of the surface seal and the aerosols R 71, R 812, R 812S and R 7200. All these Substances are available from EVONIC. As hydrophobic Aeroxides can be, for example, the substance with the trade name ALU C 805 of the company EVONIC find use. Of course are also any mixtures of the substances listed above usable.

With the specified inventive method and its embodiments can be made the above-mentioned components, these advantageously satisfy a complex requirement profile profile can, as for example for capacitor components is required. This results in the following advantages. Of the specially tailored layer structure allows the connection hydrophobic properties of the coated component, wherein at the same time the property of a self-healing of the preferred chromium (VI) -free Corrosion protection layer consisting of the chromating layer and optionally a galvanizing layer is ensured. Furthermore, it can be optionally by a suitable surface seal in addition to the hydrophobicity of the surface on a lotus effect surface produce. It also remains in case of damage and the activation of the self-healing effect of the anticorrosive layer at least obtained the hydrophobic property of the annealed layer areas. Due to the high efficiency of the anti-corrosion coating it is possible, inexpensive stainless steel, for example instead of titanium, in water-reactive atmospheres, such as for example, in capacitor components for water, too use.

Further Details of the invention are described below with reference to the drawing described. Same or corresponding drawing elements are each provided with the same reference numerals and will only so far explained several times as differences between give the individual figures. Show it

1 an embodiment of the inventive component, designed as a condenser tube, in section and

2 and 3 the detail X according to 1 , where in 3 the self-healing effect of the trained corrosion protection layer is shown.

This in 1 shown condenser tube 11 exists as a component material 12 made of stainless steel. On the component material 12 there is a corrosion protection coating 15 (the exact layer sequence of the anti-corrosion coating 15 according to 1 is according to the detail X in 2 shown). By the interior of the condenser tube 11 unillustrated water vapor can be passed on the inside 16 condensed the condenser tube. The condensation can be achieved by an unillustrated cooling on the outside 17 be supported by the condenser tube.

In 2 is a drop of water 18 represented condensed by the mechanism of drop condensation. Due to the strongly hydrophobic property of the inside 16 of the condenser tube 11 and the lotus effect properties of this inside could be applied to prepared samples of the corrosion layer 15 Contact angle of the water drop of 148 ° to 157 ° to be measured against water.

The corrosion protection layer consists of a galvanizing layer 19 on the component material 12 which is a substrate surface 20 for further layers provides. On this substrate surface 20 is a chromating layer 21 applied, which particles 22 , preferably nanoparticles, of titanium oxide and silicon oxide. On the chromating layer, which has a surface 23 forms is a surface seal 24 applied, which consists of silicone resin and in the other particles 25 a hydrophobic silica or hydrophobic alumina are finely dispersed.

In 3 is shown as a self-healing of the anti-corrosion layer 15 will happen if damage occurs. The damage is schematically as a crack 26 Darge presents, which up to the galvanizing layer 19 reaches down. Here are in the surface seal 24 and in the chromating layer 21 the particles located there 22 . 25 exposed. Due to the exposure of the particles in particular 22 From silicon oxide or titanium oxide is formed on the surface of the crack in this area a negative surface charge, the galvanizing layer 19 protects against dissolution. Therefore, in the reason of the crack 26 a gradual passivation 27 of the zinc.

For the production of the surface seal becomes as follows Example given: It becomes a colloidal spray medium made of an organic solvent, such as For example, 2-propanol, a silicone solid resin (eg SILRES 610 of Wacker) and hydrophobic silica (eg SIPERNAT D 17 of the company EVONIC) is formed. The silicone resin is with in a proportion of 25 to 35 wt .-% dissolved in the alcohol and then the hydrophobic silica with a proportion of 14 to 21 wt .-% dispersed. This spraying medium can be sprayed onto the chromating layer. To The heat treatment forms the surface seal with strong hydrophobic properties and has a roughness of 45 μm. The measured wetting angles were 148 ° to 157 ° opposite Water. To improve the adhesion of the surface seal can also find a bonding agent of pure silicone use, the previously sprayed onto the surface.

QUOTES INCLUDE IN THE DESCRIPTION

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Cited patent literature

• - DE 10305450 A1 [0002, 0002, 0011]
• - DE 202006013555 U1 [0003]

Claims (10)

Component with a substrate surface ( 20 ) of zinc or of a zinc alloy on which a chromating layer ( 21 ), characterized in that in the chromating layer ( 21 ) Particles of silicon oxide and / or particles ( 22 ) are made of titanium oxide, which are on the surface ( 23 ) of the component are exposed. Component according to claim 1, characterized in that the chromating layer ( 21 ) is at least substantially free of chromium (VI). Component according to one of the preceding claims, characterized in that the substrate surface ( 20 ) by a galvanizing layer ( 19 ) formed on the metallic component material ( 12 ), in particular steel or stainless steel, is applied. Component according to one of the preceding claims, characterized in that the surface ( 23 ) of the component with a surface seal ( 24 ), which consists of a silicone solid resin in which hydrophobic silica and / or hydrophobic alumina is incorporated. Component according to claim 4, characterized that the surface seal in addition Aerosol LE1 and / or LE2 from EVONIK contains. Component according to one of the preceding claims, characterized characterized in that the particles are designed as nanoparticles are. Component according to one of the preceding claims, characterized in that this as a capacitor component for Water vapor, in particular as a condenser tube or capacitor plate is executed. Method for producing a corrosion protection layer on a substrate surface ( 20 ) of zinc or a zinc alloy, in which the substrate surface ( 20 ) a chromating treatment to form a chromating layer ( 21 ), characterized in that in the chromating layer ( 21 ) Particles of silicon oxide and / or particles ( 22 ) are made of titanium oxide, which on the surface ( 23 ) of the component are exposed. A method according to claim 8, characterized in that chromating treatment is carried out by a Chromium (III) containing, in particular chromium (VI) -free chromating solution on the substrate surface ( 20 ) is applied, in which an aerosil and / or an aeroxide is mixed. Method according to one of claims 8 or 9, characterized in that in one on the chromating treatment following coating step in an organic solvent applied silicone resin is applied and cured, wherein in the solution a hydrophobic silica and / or a hydrophobic aerosol are dispersed.