DE19636135C1 - Production of cast moulded parts - Google Patents

Abstract

Production of cast moulded parts comprises forming a reusable elastomeric master mould from preform made of a flowable composition, into which a wax melt is poured. Onto the solidified wax model produced a casting mould made of ceramic is applied, into which a molten casting material is inserted. The novelty is that a melt made of an oil-containing, thermoplastic elastomeric material is used for the master mould whose melting temperature is above the casting temperature of the wax melt. The master mould is castable without a support apparatus with the wax of the wax model and can be removed from the preform with elastic deformation. Also claimed is the master mould used above.

Description

The invention relates to a method for producing molded parts according to three-dimensional models using lost wax driving, initially from the prototype applied to it flowable or spreadable, solidifying mass a reusable elastomeric master form is produced, in which a wax melt is poured and being subsequently on the solidified and by the Original counter-mold freed wax model from a lost mold from a kera mix material is applied, in which after melting the Wax model is introduced a molten cast material.  

The lost wax process is used because of its high fidelity for the production of precision castings. From a three-dimensional front image that also describes as a model, original, archetype, unique or the like can be both a technical object and a door bin bucket or a motor part or an art object like a plastic or a relief or even a natural product like a fossil is going to Next, an original counter-shape is produced, which is used to produce an almost any number of wax models can be used. The Wax models are then used to manufacture the actual, lost ones Molds. "Wax" also includes fusible materials with the same or to understand similar properties to which a ceramic or mineral material, for example in the form of a "slip" applied after it solidifies, the wax is melted out can (for the term "wax" see Römpp "Chemielexikon", 9th edition, 1995, Volume T-Z, pages 4972 to 4973).

A particularly interesting area of application is the so-called "Art casting", d. H. the production of a limited edition of individual Objects of art such as plastics or parts thereof. The artist has there is an interest in preserving the original counter-form if other casts can be made, if necessary from a different cast material.

Metals and metal alloys can be used as the casting material, but also plastics such as casting resins or setting ceramic masses.

It is known to use silicone rubber as a material for the original countermold turn, which is mixed with a hardener and either by brushing or immersion in several layers is cold applied to the model. Depending on the amount and type of hardener, the so-called pot life is more or less long; however, it is finite, and then the residues and  the mixing container can also be disposed of after a few uses. Since the Original counterform after curing must be cut open to the model To be able to demold, beads must be provided at the designated separation points be created, which is only possible by adding acetic acid as an accelerator is. However, harmful vapors are released, which affect the respiratory tract irritate.

Nevertheless, only a highly flexible molded skin is created that is not inherently stable is so that she must receive a support corset, which is generally made up leveled plaster, which is, however, prone to breakage. Every archetype known type always consists of a silicone molded skin and a complementary support corset that are not interchangeable. This measure is complex and must be repeated for each original counter form will. Molded skin and plaster corset are not recyclable and must when to be disposed of. In addition, the silicone resin is a relative expensive material, which also tends to stick with the original, what is very undesirable.

Through the book by Allendorf "precision casting process with Ausmelzmodellen "2nd edition, 1958, page 6, specialist book publishes Leipzig, it is known to initially use a prototype to surround a rigid plaster mold, to split the plaster mold and a rigid mold from each half of the plaster mold half made of a cast soft metal and to use two combined soft metal mold halves zen to wax models for ceramic lost molds to manufacture. So there are only three procedural steps needed to manufacture a metal master mold of wax models. Such a process may be for the mass production of castings will still be portable for that That is making a small number of casts Process per casting too expensive. Furthermore, the rigid plaster form of the first process step not the De-molding of three-dimensional undercut master models. The use of thermoplastic elastomeric materials for the original counter-form, which, as it were, after some siger division, "roll off" or peel off the original model and yet reusable is not disclosed there and is not suggested either.

From DE 34 14 096 A1 it is known as the original counterform an easily destructible slip mold made of plaster ask the z. B. 4 to 14 weight percent cellulose and / or 2 to 20 weight percent cellulose and 0.05 to 2.00 weight percent glue are added, this Original counter-form then fired and finally to Demolding of the original model is destroyed. Neither gypsum nor However, cellulose and glue are thermoplastic materials. Rather, carbonize or disintegrate both cellulose as well Glue at firing temperatures up to 800 ° C can. Through this process, also known as "burnout" is called, the strength of the rigid in itself Gypsum reduced to a fraction of the strength of gypsum (Page 5, last paragraph, in conjunction with Page 6, paragraph 2, "Collapsing the Form; Page 7, lines 16 through 18:" Plaster shape . . . slightly broken "). The use of elastomeric thermoplastic materials for the original counterform, which itself to a certain extent, possibly after uniaxial division, from the original model "roll it up" or peel it off and still reuse it cash is not disclosed there either and will not suggested.

"Slurry" means in the field of ceramics a suspension of mineral particles in water, whereby this suspension to a dimensionally stable after water removal Body is burned ("Römpp Chemie Lexikon", 1995, Georg Thieme Verlag, Stuttgart / New York, keyword "ceramics", Pages 2190 to 2191). The described in DE 34 14 096 A1 bene slip mold is not elastic, what for Nondestructive removal of the original counter form is essential is, and it is also not reusable.

In contrast, thermoplastic materials are general Use of such materials, which solidified and remained often can be melted again, in contrast for example to the thermosets.

In contrast, the cellulose esters, if they are organic in nature, as well as around cellulose nitrate thermoplastic materials. ("Römpp Chemie Lexikon", 1995, Georg Thieme Verlag, Stuttgart / New York, keyword "Cellu lose ester ", page 617). Neither cellulose ester nor Cellu However, loose nitrate is disclosed in the prior art and are not suggested either, nor should they be burned or otherwise bound minerally or hydraulically like gypsum, for example. Nor are the cellulose esters water-soluble (see Römpp, op. cit.).

The invention is therefore based on the object of a method of the beginning Specify described genus, which is easier to carry out with cheaper and above all recyclable materials for the original counter-shape comes, so that no landfill costs arise.

The solution to the problem is the one specified at the beginning Method according to the invention in that as a material for the original counter-shape a melt from an oil-containing, thermoplastic elastomer plant material is used, its melting temperature above the casting temperature the wax melt lies and that after solidification, at room temperature up to the casting temperature of the wax melt and with a wall thickness between 1 and 6 mm has such a stiffness that the original counter shape without Support device with the wax of the wax model pourable and from the model is peelable or peelable under elastic deformation.  

The essence of the invention is therefore the use of a material for the original counter-form, which melted and closed almost any number of times an original counter-form can be solidified so that it is not constantly new Molding material is required. The role model becomes - if necessary accordingly tempered - immersed in the melt or coated with the melt, when it comes to larger role models. Failed to manufacture the Original counter-form or if this is no longer required, it simply becomes again melted down. Any contamination can be filtered out, because the melt is very thin. This thin liquid also offers one very good prerequisite for the true form of the original counter-form.

Due to the oil content, the quantitative proportion of which be is tunable, the material does not stick to the original. Is this from that Molded material included, for example by a hot wire, at least one parting line is produced in the original counter-shape, and the Parts of the original counter-form can be extremely easily removed from the model peels or peeled off, also undercutting the front be demolded. With the same hot wire, the parts of the Original counter-form can also be stapled tightly together, so that it can then be filled with the wax melt.

The original counter-shape is stable and without any support corset Sufficiently shaped under the hydrostatic pressure of the wax melt constantly. Edge beads on the parting lines are not required.

Harmful fumes from hardeners, acetic acid or the like are not released. There is no "pot life" and therefore none Residues of irreversible hardened masses that have to be disposed of similarly no glued mixing containers with the remains of such masses. There is also no disposal of the support corsets.  

The material according to the invention for the original counterform is heated Containers at a temperature above the melting point, but with Ab stood by temperatures at which decomposition or excessive Vapor formation begins, kept close to the workplace. At The container is covered when not in use. H. it can be of any size Quantities of the melt can be kept in stock for any length of time where resulting in an extraordinarily large flexibility of the work processes. This means that several workplaces can be used from a single melting tank be worried.

It is particularly advantageous if

• - An oily, thermoplastic as the material for the original counter-form Cellulose ester is used
• a synthetic oil is used as the oil in the original counter-form,
• an oil-containing cellulose ester with a plasticizer is used,
• an oil-containing cellulose ester with a stabilizer is used,
• - An oil-containing cellulose ester with a melting point between 100 ° C and 110 ° C is used
• - The processing temperature of the melted cellulose ester is chosen between 140 ° C and 180 ° C, and if
• - an oil-containing cellulose ester with a density between 0.95 and 1.05 g / cm³ is used.

Such a cellulose ester is transparent and has a melting point of approx. 105 ° C, is insoluble in water, has a density of approx. 1.0 g / cm³ at 20 ° C  and has a flash point of approx. 221 ° C at a decomposition temperature 200 ° C. It is not considered a dangerous good according to the applicable Ge fuel regulation and - after a long period of use - can be like home landfilled or incinerated.

The invention also relates to an original counter-mold for producing wax models for the lost wax process. To solve the same on The original counterform consists of an oil-containing, thermoplastic elastomeric material, which at room temperature to casting temperature Wax melt and with a wall thickness between 1 and 6 mm such Stiffness has that the original counter-shape without a support device with the Wax of the wax model is pourable, especially if the Original counter-form consists of an oil-containing, thermoplastic cellulose ester.

The client can use such a primitive form for further use are handed over and can be stored for virtually any length of time.

It is equally advantageous if

• - The oil in the original counter form is a synthetic oil
• the oil-containing cellulose ester contains a plasticizer,
• the oil-containing cellulose ester contains a stabilizer,
• - The oil-containing cellulose ester has a melting point between 100 ° C and 110 ° C, preferably of about 105 ° C, and if
• - the oil-containing cellulose ester has a density between 0.95 and 1.05 g / cm³, preferably of about 1.00 g / cm³.

Claims (15)

1. A process for the production of molded parts according to three-dimensional models using the lost wax process, whereby a reusable elastomeric counter-mold is first produced from the cast from a flowable or spreadable, solidifying mass applied to it, into which a melted wax is poured and subsequently a lost casting mold made of a ceramic material is applied to the solidified and freed from the original counter-mold, into which a melted casting material is introduced after the wax model has melted, characterized in that a melt is used as the material for the original counter-mold an oil-containing, thermoplastic elastomeric material is used, the melting temperature of which is above the casting temperature of the wax melt and which, after solidification, at room temperature to the casting temperature of the wax melt and with a wall thickness between 1 and 6 mm, such a rigidity has that the original counter-mold can be poured out with the wax of the wax model without a supporting device and can be peeled off or peeled off from the model with elastic deformation. 2. The method according to claim 1, characterized in that as Material for the original counter-form an oily, thermoplastic Cellulose ester is used. 3. The method according to claim 1, characterized in that as an oil in a synthetic oil is used in the original counter-form. 4. The method according to claim 2, characterized in that an oil containing cellulose ester with a plasticizer is used. 5. The method according to claim 2, characterized in that an oil containing cellulose ester with a stabilizer is used.   6. The method according to claim 2, characterized in that an oil containing cellulose ester with a melting point between 100 ° C and 110 ° C is used. 7. The method according to claim 6, characterized in that the Ver working temperature of the melted cellulose ester between 140 ° C and 180 ° C is selected. 8. The method according to claim 2, characterized in that an oil containing cellulose ester with a density between 0.95 and 1.05 g / cm³ is used. 9. Original counter-mold for the production of wax models for waxing melting process consisting of an oily thermoplastic elastomeric material used at room temperature to casting temperature the wax melt and with a wall thickness between 1 and 6 mm has such a rigidity that the original counterform without Support device with the wax of the wax model pourable and from which Model can be peeled off or peeled off under elastic deformation is. 10. Original counterform according to claim 9, consisting of an oil-containing, thermoplastic cellulose ester. 11. Original counterform according to claim 10, characterized in that the Oil in the original counter form is a synthetic oil. 12. Original counterform according to claim 10, characterized in that the oil-containing cellulose ester contains a plasticizer. 13. Original counterform according to claim 10, characterized in that the contains cellulose ester containing a stabilizer.   14. Original counterform according to claim 10, characterized in that the Oil-containing cellulose esters have a melting point between 100 ° C and 110 ° C. 15. Original counterform according to claim 10, characterized in that the Oil-containing cellulose esters have a density between 0.95 and 1.05 g / cm³ owns.