EP1620216B1 - Moulding material, moulding part and method for the production of a casting mould - Google Patents

Abstract

The invention relatest to a moulding material for moulding parts of casting moulds used to cast metal melts, especially light metal melts such as aluminium casting melts. Said moulding material makes it possible to produce non-sand-adherent cast moulding parts which are, especially casting cores, in an economical manner by virtue of the fact that it is produced using a basic mould material which is based on quartz-free sand, especially olivin sand, and an inorganic binder based on waterglass mixed with the basic mould material. The invention also relates to moulding parts which can be produced in an economical manner and a method enabling said moulding parts to be produced.

Description

The invention relates to a molding material for the production of moldings for casting molds for casting molten metals, in particular light metal melts, such as cast aluminum melts. Moreover, the invention relates to moldings produced from such a molding material. Finally, the invention provides a method with which molded parts can be produced from molded materials according to the invention.

As a raw material of molded materials from which moldings, such as casting cores, are produced for casting molds, quartz sand is usually used. This sand is placed in advance in a mixer and mixed with a binder. The molding material obtained by this mixture is then injected into the mold cavity defining the shape of the molding to be produced. Subsequently, the solidification of the molding takes place in the mold. If an organic binder, for example synthetic resin-based binder, is used, a chemical reaction in the molding material injected into the molding tool is brought about. If, on the other hand, an inorganic, for example, water-glass-based binder is used, heat is usually added to the molding material contained in the mold in order to bring about the solidification of the molded part to be produced by evaporation of the water contained in the molding material. However, it is also possible to contain the water glass To chemically harden molding material by gassing with CO ₂ gas.

The use of quartz sand as a raw material for the production of moldings has proven itself in many ways, especially in the field of casting of light metal materials. Thus, such quartz sand can be obtained inexpensively and is characterized by a simple processability and a good quality in the image of the mold elements of each mold part to be produced.

When using a molding material with quartz sand as the base material, which contains a water-glass-based binder, these advantages, however, is offset by the disadvantage that sand deposits remain on the casting surfaces depicted by the molded parts. These adhesions can only be removed by blasting the castings with blasting material or by cleaning them with pressurized water, for example, in a separate machining process.

The processing costs and, associated with this, the costs of producing cast parts increase due to the need for reworking. In this case, the effort associated with the post-processing is particularly high when the moldings are used as casting cores, which depict the interiors of Güssteils.

Attempts have been made to reduce the expense associated with the cleaning of cast parts through the use of molding materials whose molding base material contains high proportions of synthetic mullite. Moldings of this type possess the property in the course of Solidification in the casting to disintegrate automatically, so that they can be easily removed after completion of casting solidification. However, the required amounts of mullite lead to high costs of the molding material. JP-A-06 063683 discloses the use of Chromitsend, so a quartz-free sand, as a base form stoFP for moldings of Gieβformen.

The object of the invention was to provide a molding material, which allows the cost-effective production of mold parts, in particular casting cores. In addition, low cost manufacturable molded parts and a method should be specified, which makes it possible to produce such moldings.

With respect to the molding material for moldings of casting molds for casting molten metal, in particular light metal melts, such as cast aluminum melts, this object is achieved in that such a molding material from a base material produced on the basis of olivine sand and a mixed with the molding base, based on Water glass produced inorganic binder is made.

Olivine sand is a widespread mineral that is available in large quantities at low cost.

Surprisingly, it has been shown that molding materials which are produced according to the invention on the basis of a wholly or at least predominantly quartz-free olivine sands base material, even when properly bonded with a water glass binder from the finished casting. The remaining sand retention on the casting is reduced to a minimum. In this way, even when using Moldings made of novel moldings containing a water glass binder can be guaranteed to give sanding adherence-free castings.

The molding material produced on the basis of quartz-free olivine sand according to the invention creates the prerequisite for cost-effective production of castings. Thus, when using molding materials according to the invention, the outlay for sand removal is reduced compared with that which is obtained in the cleaning of cast parts which have been cast using molded parts produced from conventional, quartz-containing molding materials.

In principle, the molding material used according to the invention can consist entirely of quartz-free olivine sand. However, in order to ensure, in addition to the freedom of adhesion, a particularly simple removal of the molded parts from the completely solidified casting, it is possible according to an advantageous embodiment of the invention to add a proportion of synthetic mullite to the molding base material. This mullite part, mixed with the main constituent of quartz-free olivine sand, supports the automatic decomposition of the moldings produced on the basis of the molding base material according to the invention during the solidification of the casting component. This proves to be particularly favorable if the molded parts are casting cores which image cavities in the finished casting.

The positive effects achieved by the use of molding materials according to the invention are found in all common water glasses. This applies in particular to those water glasses which have a modulus of 3.3-2.

One of the requirements of practice particularly well fulfilling molding composition is characterized in that it contains 1.5 to 3.0 wt .-% water glass.

To improve the sand life of the molding material of the invention may contain 0.3 to 0.5 wt .-% sodium hydroxide solution.

With regard to the molded part, the abovementioned object is achieved in that a molded part according to the invention for casting molds, which is in particular a casting core, is produced from a molding material according to the invention.

In principle, the advantageous effects achieved by using a molding material system based on the mixture of quartz-free sands and an inorganic water glass binder in the casting of light metal melts are independent of the process by which the respective molded parts, in particular casting cores, have been produced.

• Herstellen eines erfindungsgemäßen Formstoffs,
• Einfüllen des Formstoffs in einen das Formteil abbildenden Hohlraum eines temperierten Formkasten,
• Verfestigen des Formstoffs in zwei Phasen,
• wobei in der ersten Verfestigungsphase der Formstoff in dem temperierten Formkasten gehalten wird, bis eine abriebfeste Randschale des Formteils entstanden ist, und
• wobei das Formteil anschließend aus dem Formkasten entnommen und unter Einwirkung einer Mikrowellenheizung fertig ausgehärtet wird.

However, it has been found that the so-called "inorganic warm box method" is particularly suitable for this purpose. According to the invention, the abovementioned object with respect to the method for producing a molded part for casting molds, in particular for the production of casting cores, is accordingly solved by carrying out the following work steps:

• Producing a molding material according to the invention,
• Filling of the molding material into a molding of the imaging cavity of a tempered molding box,
• Solidifying the molding material in two phases,
• wherein in the first solidification phase of the molding material is held in the tempered mold box until an abrasion-resistant edge shell of the molding is formed, and
• wherein the molding is then removed from the molding box and cured fully under the influence of microwave heating.

With this procedure, moldings which are produced by mixing quartz-free sands according to the invention, in particular olivine sand precursors, with an inorganic binder can reliably produce molded parts which not only have a particularly high strength and image fidelity, but moreover have the property of to disintegrate without adhesion during the production of the castings. Decay promoting additives in the binder system are no longer required. Therefore, in the application of the invention, environmental stresses and hazards to the operator are avoided by escaping gases whose formation and unwanted spread can be minimized in conventional manufacturing only with great technical effort.

The formation of the solid, the further transport in the microwave oven enabling outer shell can thereby be supported, that the molding material is kept under negative pressure during the first stage of solidification. In this first phase of solidification of the molding material hardens to the extent that in its adjoining the mold walls edge region creates a solid layer that ensures sufficient dimensional stability of the molding material in the next manufacturing step.

Depending on the complexity of the molding of the molding to be produced in each case, the temperature of the molding box in the first stage of solidification should be 150 ° C to 200 ° C. By maintaining this temperature range during the formation of the fixed edge region of the moldings, it is also possible to produce such casting cores which have greatly varying diameter profiles or greatly non-uniform mass distributions.

It has been found that, with a suitable choice of temperature, an outer shell of the molded part which is sufficiently resistant to further processing already sets itself up when the first phase of solidification lasts 10 s to 50 s.

The complete curing of the molding then adjusts safely when the exposure time of the microwave heating in the second phase of solidification is 2 - 5 minutes. Within this period of time, the respective exposure time can be adjusted taking into account the complexity of the shaping so that at the end of the microwave treatment sufficient for the casting process final strength and dryness of the molding is guaranteed.

The invention will be explained in more detail with reference to an embodiment.

In order to produce a casting core intended for the casting of a cylinder head from an aluminum casting alloy, first of all a molding base material has been produced which consisted entirely of olivine sands.

From this molding material, a molding material has subsequently been produced by mixing the molding material with a waterglass binder. In addition, a proportion of sodium hydroxide solution has been added to the molding base to improve its durability. The mold base material thus composed contained 2.5% by weight of waterglass binder, 0.3% by weight of sodium hydroxide solution and the remainder the molding base material of the above-described composition.

This molding material has been placed in the cavity of a preheated molding box which images the finished casting core. Due to the excellent flowability of the molding material while difficult-shaped, small-part mold elements of the cavity have been filled safely. This secure mold filling has also been supported by the fact that the mold box has already been subjected to negative pressure during the filling process. The negative pressure was 0.3 bar.

The temperature of the mold box was 180 ° C when filling the molding material. At this temperature, after completion of the filling operation in the molding box, the molding material has been held for 30 seconds with still effective negative pressure. At this time formed in the area of the inner walls of the Mold box adjacent areas of the molding material, a solid outer shell. In this way, at the end of the completed in the mold box first stage of solidification, a molding was available, the strength was sufficient to be able to safely transport it in a microwave oven can.

In the microwave oven, the molded article has been microwave heated for 3 minutes until it has reached a final strength sufficient for the casting insert.

The casting core thus produced has then been placed in a casting mold, in which subsequently the melt produced from the aluminum casting alloy has been cast to the cylinder head to be produced. In the course of solidification, the casting core is automatically disintegrated into many small fragments due to the temperature influence of the casting heat and its due to the solidification of the casting mechanical stress, which could be easily removed after complete solidification of the casting.

After removing the fragments of the casting core, it was found that no sand adhered to the walls of the casting, which had come into direct contact with the casting core. Subsequent cleaning of the ducts and cavities of the cylinder head represented by the casting core was no longer necessary.

Claims (11)

1. A moulding material for mould parts of casting moulds for the casting of metal melts, in particular light metal melts, such as aluminium casting melts, manufactured out of a basic mould material produced on the basis of quartz-free sand, and an inorganic binder, produced on the basis of waterglass, mixed with the basic mould material, characterised in that the quartz-free sand is olivine.
2. The mould material according to Claim 1, characterised in that the basic mould material contains a proportion of synthetic mullite.
3. The mould material according to one of the previous claims, characterised in that the waterglass has a modulus of 3.3 - 2.
4. The mould material according to one of the previous claims, characterised in that it contains 1.5 -3.0 % by weight of waterglass.
5. The mould material according to one of the previous claims, characterised in that it contains 0.3 - 0.5 % by weight of caustic soda.
6. A mould part for casting moulds, in particular casting cores, manufactured from a mould material with a composition in accordance with one of the previous claims.
7. A method for the manufacture of a mould part for casting moulds, in particular for the manufacture of casting cores, including the following work steps:

   - manufacture of a moulding material made in accordance with one of the Claims 1 to 6

   - filling of the mould material into a hollow space forming the mould part of a core box at the correct temperature,

   - solidification of the mould material in two phases,

   - where in the first phase of solidification the mould material is held in the mould box at the correct temperature until an abrasion-resistant edge shell has formed on the mould part, and

   - where the mould part is then taken out of the mould box and is hardened off completely under the action of microwave heating.
8. The method according to Claim 7, characterised in that the mould material during the first phase of solidification is held at a pressure below atmospheric pressure.
9. The method according to one of the Claims 7 or 8, characterised in that the temperature of the mould box in the first phase of solidification is 150 - 200 °C.
10. The method according to one of the Claims 7 to 9, characterised in that the first phase of solidification lasts for 10 - 50 seconds.
11. The method according to one of the Claims 7 to 10, characterised in that the action time for the microwave heating in the second phase of solidification is 2 - 5 minutes.