DE102008015966A1 - Casting mold production from mixture of granular refractory and binder, by shaping in model at least partially coated with organosilicon composition as separating agent - Google Patents

Abstract

In the production of casting molds by introducing a composition containing granular refractory and a binder into a hollow model, having an internal cavity with all of the surface contours of the mold (or mold part) to be produced and consisting of parts separable to allow extraction of the obtained mold, at least one of the parts is treated before use with a composition (A) containing organosilicon compound(s) (I) and preferably solvent(s). Independent claims are included for: (1) the use of the composition (A) for producing casting molds or their component parts; and (2) apparatus for producing casting molds, which includes at least one part having an organosilicon layer or coating.

Description

Production of molded parts for foundry purposes

The The present invention relates to methods of making molds and cores for foundry purposes and parts thereof and for use in these processes suitable compositions and devices.

In foundry technology Shapes and cores are needed in particular from a granular, refractory material and a binder.

When Shapes are for foundry purposes often Mask forms used according to the so-called Croning method (named after its inventor Johannes Croning) can. As a rule, mask forms consist of two halves, which put together one form the model contour corresponding mold material shell. Shell molding or parts thereof are preferably made of mixtures of sand and synthetic resin Using heated model devices made. The mixture is introduced into a hollow model whose inner cavity the contours all surfaces the shape to be produced or the molded part to be produced. By the heat effect when molding hardens the resin binder from and there is a self-supporting, mask-like Shape of preferably small thickness, which is the outer contour of the product to be cast Are defined. In the subsequent Casting process can the Shell shape z. B. be backfilled with a granulate.

To Production of cavities inside foundry products The above mentioned cores are needed, which are within one mold can arrange and their shape of the inner contour of the product to be cast equivalent. Following the casting, the core may turn off again removed from the cast product.

As The mask forms are also cores usually made of a granular, refractory material and a binder. This can for example, in the so-called core shooting method with binder Staggered sand (so-called molding sand or present so-called Core sand) under defined pressure and defined temperature in a core box (a device, which usually consists of two moldings or mold halves in use, the at least one internal cavity in the form of the core to be manufactured - a so-called mold nest - to include) be introduced. After curing of the binder can the finished core removed from the core box and used as intended become.

There it is not too chemical especially in the production of cast metal products Reactions between the liquid Metal and the form or the core may come, must form and core usually out very high quality materials, eg. B. made of pure quartz sand become. The grain size of the materials is preferably chosen so that the surfaces the cast products do not get too rough.

When Binders are usually organic binders such. B. liquid Phenol, furan, and amino resins (or combination thereof). With the addition of a hardener such as ammonium stearate may be a mixture made therewith with a suitable grainy, refractory material at temperatures between 200 ° C and 270 ° C in very cure in a short time. However, inorganic binders have been gaining increasing attention lately for use. As such come in particular water glass, magnesium sulfate, Sodium phosphate, clays, montmorillonite, glauconite, kaolin, aerogels, Cement or gypsum in question. In addition, layered minerals are generally in particular phyllosilicates, suitable as inorganic binders.

Either when using organic as well as inorganic binders however, they occur frequently Problems on. That's how it often happens to adhesions of the mixture of the granular, refractory material and the binder on the walls the mentioned Internal cavities. About the Time arise so ever thicker caking, which lead to it to form body inaccuracies that comes later in the finished cast product can reflect.

It is known to avoid such buildup or caking with the help of so-called Quickpads. A quickpad is a non-stick sticker that can be based on a teflon coating, for example. This must be manually glued into the inner cavities and removed with decreasing effect again and replaced, which is associated with relatively high cost. Furthermore such Quickpads can be used only to a limited extent, since possibly make the use of very complex contours occurring in some areas of the inner cavities their use impossible. In addition, quick pads are thermally only limited load and therefore unsuitable for use in hot curing processes.

alternative to the Quickpad it is known, disposable release agents, in particular on Wax base to use. Such release agents form as a liquid film on walls the internal cavities. However, especially in critical areas they often remain ineffective, because the mixture of the granular, refractory material and the binder often under high pressure in hollow models and core forms occurs and the release agent thereby mechanically washed off becomes.

Of the The present invention is based on the object, an improved technical solution to provide molds and cores for foundry purposes, in which the above problems do not occur.

These Task is solved by the method of making molds for foundry purposes and parts thereof with the features of claim 1, the method of manufacture from cores for foundry purposes with the features of claim 2, the uses with the features the claims 6 and 7 and the device with the features of claim 23. Preferred embodiments the inventive method are in the dependent claims 3 to 5 defined. Preferred embodiments of the uses according to the invention and the device according to the invention can be found in the dependent claims 8 to 22 and 24 to 27. If necessary, some preferred features hereinafter explained in more detail only in the context of the description of one of the mentioned inventive objects. Independently of should the appropriate explanation however for All objects according to the invention apply. The wording of all claims is hereby incorporated by reference into the content of this specification.

One inventive method is used for the production of molds for foundry purposes, more preferably of mask forms, and parts thereof. In particular, the method according to the invention a process for the production of molds, the outer contour of a to be poured Product (unlike the procedure described below for the production of cores, which yes as described above for Creation of a cavity can be used, the shape of which is therefore possibly defines the inner contour of a corresponding product).

at The method is a composition of a granular, refractory material and a binder (preferably a conventional organic and / or inorganic binder) introduced into a hollow model, blown in particular. After insertion, the binder becomes usually cured immediately, whereupon the manufactured molds can be removed. Of the Inner cavity of the hollow model (or its shape) determines the contours of all surfaces the shape to be produced or the molded part to be produced. The Model itself consists of at least two separable ones Divide to allow the removal of the mold. Special draws a method according to the invention for the production of molds for foundry purposes characterized in that on at least one of the separable parts prior to its use, a composition is applied which at least one crosslinkable organosilicon component and at least a solvent contains.

One inventive method for the production of cores for Foundry purposes, set by the inner contours of a hollow product to be cast can be also uses a mold consisting of two or more moldings, the ready to pour (ie assembled into a form) Condition at least one internal cavity (a so-called mold cavity) in the form of the core to be manufactured. In the form can it is a usual one Mold box or a usual Shaped sleeve act as well known to those skilled in the art.

• – Einbringen, insbesondere Einschießen, einer Zusammensetzung enthaltend ein körniges, feuerfestes Material und ein anorganisches Bindemittel (vorzugsweise besteht die Zusammensetzung aus dem körnigen, feuerfesten Material und dem anorganischen Bindemittel) durch mindestens eine Zufuhröffnung in den mindestens einen Innenhohlraum,
• – Aushärten des Bindemittels und
• – Entnahme des oder der Kerne.

A method according to the invention for the production of cores for foundry purposes always comprises the steps

• Introduction, in particular injection molding, of a composition comprising a granular refractory material and an inorganic binder (preferably the composition of the granular refractory material and the inorganic binder) through at least one feed opening into the at least one inner cavity,
• - curing of the binder and
• - removal of the core (s).

Especially a method according to the invention is characterized characterized in that on at least one of the moldings before his Use, preferably before joining the moldings to a ready for casting Form, but in any case before the introduction of the composition from the grainy, refractory material and the binder containing a composition at least one crosslinkable organosilicon component and at least a solvent is applied.

Either in the case of the method of manufacturing molds for foundry purposes as well as in the case of the method for the production of cores for foundry purposes becomes the composition with the organosilicon component preferably applied such that the walls of the inner cavity at least partially, preferably completely, covered with the layer or coating. This is especially true for the areas when introducing the composition from the granular, refractory material and the binder mechanically particularly strong In particular, in the production of cores the areas opposite to the at least one feed opening.

The Applying the composition to the moldings is preferably carried out by spraying or a dipping process. Naturally In each case, a composition of suitable consistency must be used become. The one for it required as well as other properties of the composition can by Addition of appropriate additives such as thickener, rheology additives etc. are set. Suitable additives are known to the person skilled in the art and need no detailed explanation at this point.

immediate after application, the composition with the organosilicon Hardened component become. Preferably, the curing of the composition takes place in Framework of the method according to the invention thermally, preferably at temperatures between room temperature and 350 ° C, especially preferably between 20 ° C and 300 ° C, especially between 30 ° C and 200 ° C.

Prefers In this case, the composition comprises at least one thermally crosslinkable ingredient. In particular, this can also be to the at least one crosslinkable organosilicon component act.

In a further preferred embodiment the method according to the invention can the curing also be done by means of electromagnetic radiation. Especially preferred is the use of radiation with wavelengths in the UV and / or IR range.

In In this case, the composition preferably comprises at least one radiation crosslinkable component. So, for example the at least one crosslinkable organosilicon component Radiation crosslinkable side chains (especially with ethylenic Double bonds).

Basically it also possible that is cured both thermally and with radiation. So can in the composition both thermally and by radiation be included crosslinkable components, which it then quite do not act with all components to organosilicon components got to. So can for example, polyester resins as part of the composition if appropriate, be preferred.

The thus produced layer or coating has an excellent Separation function, it effectively prevents direct contact the composition of the granular, refractory material and the binder at least with the critical Wall areas of the inner cavity. The layer or coating can be therefore also called a release layer. It has a high non-wettability on. About that In addition, it is characterized in particular by an extraordinary high abrasion stability and very good adhesion properties.

at the grainy, Incidentally, fireproof material is more particularly sand, especially quartz sand.

As already mentioned, the present invention also encompasses the use of a composition, the at least one crosslinkable organosilicon component and at least one solvent contains for the production of molds (in particular mask molds) for foundry purposes and parts thereof, in particular in the context of a method according to the invention for the production of molds for Foundry purposes, as well the use of such a composition in the manufacture from cores for Foundry purposes the already mentioned grained refractory material and the inorganic binder.

When Inorganic binders are especially water glass, magnesium sulfate, Sodium phosphate, clays, montmorillonite, glauconite, kaolin, aerogels, Cement, gypsum, layered minerals such as phyllosilicates and combinations the said components into consideration.

at the at least one crosslinkable organosilicon component it is preferably at least one member of the group with crosslinkable silanes, crosslinkable siloxanes and crosslinkable ones Silicones.

When Silanes are organofunctional according to the invention Silanes such as amino, epoxy and methacryloxy and isocyanatosilanes particularly suitable. Methacryloxysilanes are by Radiation crosslinkable silanes, for example, by UV radiation hardened can be as already mentioned above.

When Siloxanes and silicones are, for example, polysiloxanes, polyorganosiloxanes, Epoxysilicones and polyether silicones suitable.

Especially Preferably, the composition usable according to the invention comprises as at least one crosslinkable organosilicon component at least an alkoxysilane, especially a triethoxysilane such as trimethylethoxysilane.

In a further preferred embodiment can be used as at least one crosslinkable organosilicon component at least one silane with fluorine-containing side chains is used come. This is particularly preferably an alkoxysilane with fluorine-containing side chains, in particular tridecafluoro-1,1,2,2-tetrahydrooctyl-1-triethoxysilane.

Next the at least one crosslinkable organosilicon component can be used according to the invention Composition also at least one other crosslinkable organic Component non-organosilicon Nature, in particular a polyester component include.

In a particularly preferred embodiment are the at least one crosslinkable organosilicon component and the at least one further crosslinkable organic component in the form of a silicone polyester resin in the composition.

It is furthermore preferred that the composition which can be used according to the invention comprises at least one organosilicon component one or more release agents, in particular at least one release oil. It is preferable that in the separation agent is a linear or branched polysiloxane, in particular a polysiloxane of the formula R-O- [R _'2 Si-O] _n -R, where R and R' independently represent an alkyl group having 1 to 8 carbon atoms or an aromatic radical having 6 to 20 carbon atoms.

In further preferred embodiments can in the composition with the at least one organosilicon Component may also contain inorganic particles, in particular those with grain sizes in the range Nanometer to micrometer. The nature of the inorganic particles is basically not critical, but it is particularly preferred around silicate particles. Surprisingly It has been found that the presence of such particles improves the abrasion resistance of the release layer clearly increased.

When Further components may be a composition which can be used according to the invention with the at least one organosilicon component as crosslinker have suitable components. Common crosslinkers are the expert known. Triethoxysilane (TEOS) is particularly preferred in the present case. used.

In addition to the crosslinker or, alternatively, a usable according to the invention Composition also a catalyst, in particular at least a condensation catalyst. This can be for example an acid like hydrochloric acid or sulfuric acid act.

at the above mentioned it is preferably an organic solvent, in particular at least one alcohol, ethers and / or esters. The nature of the solvent is however basically not essential to the invention.

An inventive device for the production of molds for foundry purposes is suitable in special for the production of mask forms. It has at least one part, in particular a molded part, which is provided with an organosilicon layer or coating, in particular with a hardened organosilicon layer or coating. The device according to the invention preferably itself is a form.

The Layer or coating is preferably of a composition containing at least one crosslinkable organosilicon component and at least one solvent prepared as described in detail above.

In preferred embodiments the layer or coating has a thickness between 1 μm and 100 μm, in particular between 1 μm and 20 μm, on.

The at least one part is preferably at least partially in preferred embodiments also completely, made of metal and / or plastic.

Especially Preferably, the layer or coating is permanent or at least semi-permanently bound to the at least one molded part. The layer or coating forms on the surface of the at least one part a matrix of a hardened one organosilicon component, in the inorganic particles are stored.

Further Features of the invention will become apparent from the examples in conjunction with the dependent claims. Here you can individual features for each one or more in combination with one another in one embodiment be realized the invention. The described preferred embodiments are for explanation only and for better understanding of the invention and are in no way limiting.

Example 1: Preparation of a usable according to the invention Composition A

In A 1000 ml flask is given 500 g of one with a separating substance added polyester-modified methyl-phenyl-polysiloxane resin (for example a commercial, suitable for demoulding sugary baked good polyester modified Methyl phenyl polysiloxane resin) and 500 g methoxypropyl acetate as Solvent, (possibly stained blue with ultramarine blue extra dark) and mixed together for one hour RT stirred. Depending on the desired Layer thickness is a dilution between 2: 1 and 1: 2 possible. After stirring for 4 h at RT, the product is ready for use and can be applied by spraying become.

Example 2: Preparation of a usable according to the invention Composition B

Composition: raw material % 2-propanol 93.8425 Silane with fluorine-containing side chains 2.49 TEOS (Dynasyl A) tetraethoxysilane 2,035 trimethylethoxysilane .5775 Hydrochloric acid 0.1 mol / l 1,055

Of the Alcohol is presented in a 1000 ml glass flask. With a dropping funnel are under strong stirring successively within one hour the silane with fluorine-containing Side chains (tridecafluoro-1,1,2,2-tetrahydrooctyl-1-triethoxysilane), added the TEOS and the trimethylexethoxysilane. Then the hydrochloric acid dropped thereto. After stirring for 4 h at room temperature, the hydrolysis product is ready for use and can be applied become.

Example 3: Preparation of a usable according to the invention Composition C

raw material % 2-propanol 93.76 silane with fluorine-containing side chains 2.55 colloids silica dispersion 3.59 Sulfuric acid conc 0.10

Of the Alcohol is presented in a 1000 ml glass flask. With a dropping funnel are under strong stirring successively within one hour the silane with fluorine-containing Side chains (tridecafluoro-1,1,2,2-tetrahydrooctyl-1-triethoxysilane), and the colloidal silicate dispersion (silicate dispersion in isopropanol with a particle size of approx. 13 nm and a solids content of 30%) was added. Then it will be the sulfuric acid dropped thereto. After 4 stirring at RT, the product is ready for use and can be applied.

Example 4: Processing of the composition A

to Preparation, it is preferable if the parts to be coated (eg stainless steel test plates with a size of 5 cm by 15 cm as test substrates) with isopropanol. Alternatively or additionally, the Parts can also be cleaned by sandblasting.

The Product A of Example 1 is applied by means of a spray gun (eg SATA minijet 4 HVLP with nozzle 0.8) applied at 2 bar. The achieved layer thicknesses are between 3 μm and 75 μm. The curing carried out (in a drying oven) at 150 ° C to 230 ° C within a period of time from 1 to 4 h.

Example 5: Processing of the compositions B and C

The Products B and C of Examples 2 and 3 are clothed (preferably clean room cloth, eg Betawype TX 2009 from Texwype) applied and rubbed (polished). The thermal fixation takes place at 200 ° C by means of hot air blower inside 1 to 3 min, preferably 90 s or (in a drying oven) within 1-4 h at 150-190 ° C, preferably 2 hours at 190 ° C.

Example 7:

In a foundry was the parts of a hollow model for the production of external forms for the casting of sanitary fittings treated with product A. Product A were applied in this way, that the walls of the Inner cavity of the hollow model completely with a thin layer of the product were. Subsequently one left the product over Cure for 24 hours at room temperature. After that, the shape came in the series use. Even after repeated use of the hollow model could not detect any critical molding caking become.

Claims (27)

Method for the production of molds for foundry purposes, in particular of mask molds, and parts thereof, in which a composition of a granular, refractory material and a binder is introduced into a hollow model, the inner cavity of which determines the contours of all surfaces of the mold or of the molded part to be produced in that the model consists of at least two separable parts to enable removal of the manufactured mold, characterized in that on at least one of the separable parts before its use is applied a composition comprising at least one crosslinkable organosilicon component and at least one solvent contains. Process for the production of cores for foundry purposes and dividing it from a granular, refractory Material and an inorganic binder by means of a mold of two or more molded parts which are in a castable state at least include an internal cavity in the form of the core to be produced, comprising the steps - bring in a composition of the grainy, refractory material and the binder through at least one feed opening in the at least one internal cavity, - curing of the binder and - removal of the core (s), being on at least one of the moldings prior to its use, a composition is applied which at least one crosslinkable organosilicon component and at least a solvent contains. A method according to claim 1 or claim 2, characterized characterized in that the composition is applied in such a way that the walls of the internal cavity after curing at least partially, preferably completely, with the layer or Coating are lined. Method according to one of the preceding claims, characterized characterized in that the curing of the Composition with electromagnetic radiation, in particular in the UV and / or IR range, he follows. Method according to one of the preceding claims, characterized characterized in that it is the granular refractory material is sand, especially quartz sand. Use of a composition containing at least a crosslinkable organosilicon component and at least one solvent for the production of molds (in particular mask molds) for foundry purposes and parts thereof, in particular in a method according to claim 1. Use of a composition containing at least a crosslinkable organosilicon component and at least one solvent in the manufacture of cores for foundry purposes and divide them from a grainy, refractory material and an inorganic binder. Use according to claim 6 or claim 7, characterized characterized in that the at least one crosslinkable organosilicon Component at least one member of the group with connectable Silanes, siloxanes and silicones includes. Use according to one of Claims 6 to 8, characterized that the at least one crosslinkable organosilicon component at least one alkoxysilane, in particular a triethoxysilane such as Trimethylethoxysilane. Use according to one of Claims 6 to 9, characterized that the at least one crosslinkable organosilicon component at least one silane with fluorine-containing side chains, particularly preferred at least one alkoxysilane having fluorine-containing side chains. Use according to claim 10, characterized the at least one fluorine-containing side chain silane tridecafluoro-1,1,2,2-tetrahydrooctyl-1-triethoxysilane is. Use according to one of Claims 6 to 11, characterized that the composition in addition to the at least one crosslinkable organosilicon component at least one further crosslinkable Organic component of non-organosilicon nature, in particular a polyester component. Use according to claim 12, characterized that the at least one crosslinkable organosilicon component and the at least one further crosslinkable organic component in the form of a silicone polyester resin in the composition are. Use according to one of Claims 6 to 13, characterized that the composition comprises at least one release agent, in particular at least one separating oil, having. Use according to claim 14, characterized in that the composition as a release agent, a linear or branched polysiloxane, in particular a polysiloxane of the formula R-O- [R _'2 Si-O] _n -R, where R and R' independently represent an alkyl group having 1 to 8 carbon atoms or an aromatic radical having 6 to 20 carbon atoms. Use according to one of Claims 6 to 15, characterized that the composition comprises inorganic particles, in particular with particle sizes in the nanoscale Area. Use according to claim 16, characterized that the particles are silicate particles. Use according to one of Claims 6 to 17, characterized the composition comprises at least one suitable crosslinker Component has. Use according to claim 18, characterized in that the composition is used as crosslinking agent Triethoxysilane (TEOS) has. Use according to one of claims 6 to 19, characterized that the composition comprises at least one catalyst, in particular at least one condensation catalyst having. Use according to claim 20, characterized that the composition as catalyst at least one acid, in particular hydrochloric acid and / or sulfuric acid, having. Use according to one of Claims 6 to 21, characterized that the composition is at least one organic solvent having. Device for producing molds for foundry purposes, in particular of mask shapes, characterized in that they at least one part, in particular molding, having, with a silicon organic layer or coating is provided. Device according to claim 23, characterized in that in that the layer or coating comprises a composition at least one crosslinkable organosilicon component and at least one solvent is made. Device according to one of claims 23 or 24, characterized the layer or coating is between 1 μm and 100 μm, in particular between 1 μm and 20 μm, thick. Device according to one of claims 23 to 25, characterized that the at least one part at least partially, preferably Completely, made of metal and / or plastic. Device according to one of claims 23 to 26, characterized that the layer or coating is a matrix of the hardened organosilicon Component has embedded in the inorganic particles.