DE19842660A1 - Process for coating a surface with a release agent - Google Patents

Abstract

The invention relates to a method for coating a surface with a separating agent, characterised in that a BN powder is applied to the surface by means of electrostatic coating.

Description

The invention relates to methods for coating a Surface with a release agent.

The problems that arise when shaping non-ferrous metals are explained below using the example of aluminum shaping. Aluminum blocks are processed into profiles at typical processing temperatures of around 450 ° C by means of extrusion (extrusion). Here, a preheated aluminum block (Al block) with a preferably round cross section is pressed over a recipient (container) by means of a press ram through the shaping press tool, thus formed into a profile and then cooled after leaving. The front part of the press ram, also called the press disk, must perform the following tasks:

• 1. It must seal the recipient against the pressing direction;
• 2. It must move slightly away from the plunger when it is retracted Separate aluminum.

The remaining Al-press residue is with a shear knife (Press scissors) removed before the next Al block to Processing arrived.

Due to the extremely high corrosion, the common metallic Materials compared to aluminum and other non-ferrous metals at typical processing temperatures Contact points between non-ferrous metal and the mold with so-called release agents to be treated trouble-free operation is possible.

As a common release agent, soot is used to separate the press disk and Al block for use; the soot is burned an acetylene flame on an end face of the Al block deposited. This process must be carried out with every new Al block be repeated.  

Oils are usually used to coat the press shears used, which evaporate on contact with the hot Al and thereby achieve a separating effect.

Not only in extrusion but in all processes for Shaping of non-ferrous metals such. B. gravity die casting, Low pressure casting, die casting, continuous casting become release agents used.

As a rule, pigment-free recipes are used, which are based on water or mineral oils with additives. In some cases, pigment-containing formulations of release agents are also used. (See, for example, EP 810046, US 92943405.) The pigments used comprise a whole range of solids, such as, for. B. graphite, MoS ₂ , BN or talc.

Do you see from the above in situ formation of soot as a special case is common to all previously known release agents that they in the form of liquid suspensions or emulsions must be applied. They are usually commissioned by spraying on the warm to very hot surfaces. At at high temperatures there is a risk of ignition volatile components or existing solvents or the loss of the active ingredient when suddenly evaporating in the Contact with the hot surface. In addition, the Evaporation products pose a significant burden to the Ambient air created by the formation of Decomposition products is still increased. Usually arrive a large part of the components in the water cycle, which in the Area of equipment is installed and must be at this point are elaborately eliminated.

It is therefore the task of a process for Coating a surface with a release agent To make available that is not with the problems of the State of the art is affected. The coating should done evenly, quickly and economically.  

The object is achieved by a method which thereby is characterized in that a BN powder by means of electrostatic Coating is applied to the surface.

In the surface to be coated, it can e.g. B. the Surface of the molding die, e.g. B. the press washer or the baling shear act. In principle, however, it is also possible the surface of the non-ferrous metal with the ram is contacted. Since the means separation layer applied in the process according to the invention has good surface adhesion, the one with the Nonferrous metal surfaces coming into contact with the shaping press tool treated as this treatment must be repeated after 3 press cycles at the earliest.

It was found that not all BN powders are equally good for Coating are suitable. Some powders can a. to a high consumption, an irregular coating of the Surface, and clogging of the nozzle of the Application device.

An irregular coating can lead to an uncontrolled possible sticking or sticking of the non-ferrous metal to the Contact point of the non-ferrous metal with the metallic Lead material.

BN powders which have a fineness corresponding to a specific surface area of 10-50 m ² / g are preferably used. The BN powders particularly preferably have a specific surface area of 10-30 m ² / g, in particular a specific surface area of 10-20 m ² / g.

The powder also preferably has a boric acid or boron oxide content, expressed as B ₂ O _{3, of} less than 5%, particularly preferably less than 0.5%.

The moisture content of the powder is preferably given as an H ₂ O content of less than 1%, particularly preferably less than 0.2%.

Powders whose bulk density is below 0.5 g / cm ³ , in particular below 0.3 g / cm ³ , are particularly preferred.

BN powders, all of which are mentioned, are particularly preferred Meet parameters.

To carry out the method according to the invention, the BN powder is fluidized in a storage container with a fluidizing gas. The fluidizing gas is usually compressed air. Other inert gases such as e.g. B. N ₂ , noble gases or gas mixtures can also be used.

The fluidized BN powder is charged electrostatically. This happens, for example, as usual for powder coatings, in a commercial paint spraying device for powder coatings. The BN particles are preferably charged with a Voltage of 75-80 kV worked.

The fluidized BN powder is loaded onto the Sprayed on and coated the surface evenly provided parts. This is done in the same way as usual Powder coating.

The throughput of BN powder is preferably adjusted to the values suitable for coating by the conveying gas pressure and the nozzle geometry (especially the nozzle diameter). The conveying air is therefore preferably used at 0.5-1.5 bar, the fluidizing air at 0.3-0.8 bar. The total air volume is about 5-8 m ³ / hour.

Handling can either be done manually - but it is a fully automated implementation of the method without further ado possible. By varying the tension and the pressure regulate the order quantity and liability.  

It has surprisingly been found that the means of BN powder applied a method according to the invention Sufficiently high adhesion to the medium to be coated (e.g. a press washer) without the addition of binders is necessary.

The invention thus also relates to the use of BN powders as a release agent in the shaping of non-ferrous metals as well a release agent consisting of BN powder. Preferably acts it is the BN powder mentioned as preferred.

That was done by means of the method according to the invention Coating is more durable than the conventional one Release agent coating. It enables multiple Repetition of the extrusion cycle before a new job is required.

It turns out that the coating also at corners and Edges occur and also runs around them.

The coating method according to the invention has proven to be extremely simple, quick and convenient to carry out exposed.

Powders suitable for use in the process according to the invention are on the market in a wide range of properties available.

The production of a BN powder that is preferred for the Use in the method according to the invention is also suitable made from commercially available hexagonal BN powder.

If the B ₂ O ₃ content of the conventional powder is too high, the B ₂ O ₃ content of the powder is reduced by washing z. B. with water or alcohols to the desired value.

Too high moisture contents are dried by drying e.g. B. in usual drying ovens u. U. with protective gas or Vacuum drying reduced to that for the invention Powder to achieve necessary values.

The bulk density of the BN powder required according to the invention becomes if necessary, by grinding the possibly pretreated BN powder set. It is preferable to ensure that no excessive moisture absorption during grinding he follows.

A number of conventional "dry" grinders come as Methods such as B. by means of pin mills, rotor mills, Ball mills in various designs are used. The simple application of the BN- Powder and the outstanding separation effect of BN compared to Al. The use of the powders is not limited to Al; the application of BN powder according to the invention by means of electrostatic coating without any binders and free of other substances such as solvents is also for those Processing of a whole range of non-ferrous metals such as B. Cu, Zn, Mg, Pb, Sn or their alloys are suitable.

The following examples serve to further describe the Invention:

example 1

A BN powder commercially available under the designation S1 from Elektroschmelzwerk Kempten GmbH, Munich, with a fineness corresponding to a spec. BET surface area of 14.5 m ² / g, a B ₂ O ₃ content of 0.12%, a moisture content of 0.25% H ₂ O and a bulk density of 0.55 g / cm ³ (powder I) was ground in a pin mill with a throughput of 20 kg / hour. The powder thus obtained (Powder II) had a spec. BET surface area of 14.5 m ² / g, a B ₂ O ₃ content of 0.2%, a moisture content of 0.3% and a bulk density of 0.2 g / cm ³ .

Powder II was applied by means of electrostatic coating (Gema), (80 kv; 0.8 bar conveying air on the inlet side, 0.4 bar fluidizing air, 5 m ³ / hour air quantity for conveying) to a press disk with a diameter of 20 cm. The powder immediately settled evenly on the press disk. Approx. 0.5 g BN powder are used. A new coating was only necessary after a further three extrusion cycles.

Example 2

A hexagonal BN powder with a fineness corresponding to a specific surface area of 6 m ² / g and a B ₂ O ₃ content of 9% (powder III) with a bulk density of 0.6 g / cm ³ was ground in a ball mill a specific surface area of 15 m ² / g was reached. The powder IV thus obtained was dispersed several times with water and washed out until the B ₂ O ₃ content was reduced to 0.1%. Finally, the powder was dried in vacuo at 60 ° C. to a residual moisture of 0.2% and ground in a rotor mill to destroy the agglomerates. An Al block, as described in Example 1, was electrostatically coated with the powder V thus obtained (bulk density 0.19 g / cm ³ , other parameters as mentioned). The consumption corresponded to the value from Example 1. The coating was uniform and allowed pressure disks that had come into contact with the layer to be used three times before renewed coating to form Al.

Claims (10)

1. A method for coating a surface with a release agent, characterized in that a BN powder is applied to the surface by means of electrostatic coating. 2. The method according to claim 1, characterized in that the BN powder in a storage container with a fluidizing gas is fluidized, the fluidized BN powder electrostatically is charged and the fluidized BN powder in the charged Condition is sprayed onto the surface to be coated. 3. The method according to claim 2, characterized in that a Charging the BN particles with a voltage of 75-80 kV he follows. 4. The method according to claim 2, characterized in that the Fluidizing gas is compressed air or an inert gas. 5. The method according to claim 1, characterized in that the coating is carried out with a conveying air pressure of 0.5-1.5 bar, a fluidizing air of 0.3-0.8 bar and a total amount of air of about 5-8 m ³ / hour. 6. The method according to any one of claims 1 to 5, characterized in that a BN powder is used, which has a fineness corresponding to a specific surface of 10-50 m ² / g. 7. The method according to any one of claims 1 to 6, characterized in that a BN powder is used which has a boric acid or boron oxide content indicated as B ₂ O ₃ below 5%. 8. The method according to any one of claims 1 to 7, characterized in that a BN powder is used which has a moisture content indicated as H ₂ O content less than 1%. 9. The method according to any one of claims 1 to 8, characterized in that a BN powder is used which has a bulk density below 0.5 g / cm ³ . 10. Release agent consisting of BN powder.