DE975515C - Coating compound for models to be poured through lost wax - Google Patents

Description

Coating compound for models for casting by lost wax The invention relates to lost wax casting, and specifically it relates to a Coating compound for models used for such a casting process.

When casting using your lost wax technique, it is common to use the Models made of wax or plastic mass with a thin refractory coating to be provided by dipping or spraying the model with a spray gun is applied.

This refractory cladding is made from a refractory powder from zircon, sillimanite, IVlullite od. The like. Of very large, generally between 3,600 and 15,000 meshes / cm2 lying fineness, with the individual particles of the refractory powder are bound by a likewise refractory binder.

Among the methods of making two-layer or multilayer Forms one is also known in which a water-soluble, fatty acid salts having Refractory ceramic mass after application to the model in an acidic medium is exposed to the ceramic mass due to the formation of fatty acid water-repellent To give properties.

It has now been found that among the binders suitable for this purpose the tetrabutoxytitanium gives particularly good results, so that according to the invention the coating composition for models for casting by lost wax consists of refractory materials in a solution of tetrabutoxytitanium with the Formula (C4 119 O) 4 Ti are bonded. This results in the requirements for the casting operation considerable advantages that no additives, such as fatty acid salts, and no additional ones whatsoever Treatments, such as the application of acid or the like, are necessary to make the coating material water-repellent because the titanate is converted to titanium oxide in the presence of moisture and because a composition with these means does not age at all. For the Casting technology is this latter property of the new coating compound in particular interesting because of its extraordinary economic importance.

For completely different purposes, namely to increase the breaking strength of ceramic bodies, was merely the use of titanium and titanium oxides and the use of titanium oxide and butyl titanate for heat-resistant paints gotit.

The tetrabutoxytitanium used for the method according to the invention is an alcoholate of butyl alcohol, has the formula (C4H90) 4Ti and is formed by Conversion of titanium tetrachloride with butyl alcohol.

The new coating compound is used in a further embodiment of the invention used as a backfill compound for coated models in the manufacture of precision casting molds.

Diluted with your tetrabutoxytitanium for the purpose of making a binder it, with one of its solvents, e.g. B. xylene, isooctane, isohexane, gasoline, Benzene, chloroform, carbon tetrachloride, ether or the like, so that 0.5 to 50% Tetrabutoxytitanium solutions arise.

This binder is mixed with the refractory material in a kneading machine in an amount between 10 and 50 percent by weight of the refractory material mixed.

So z. B. get good results if you have one out of 80 parts Xylene and 20 parts tetrabutoxytitanium existing binder used.

Used depending on the desired consistency of the refractory paste one to 10 to 25 parts of binder and 75 to 100 parts of refractory material. For one Coatings of suitable viscosity are preferably 2o parts binder to 8o Parts of fireproof fabric applied. After your covering, the covering can be used advantageously in a drying chamber at 50 ° C or just leave to air dry before using coats it with another refractory compound that forms the molding compound. These Refractory mass can be silica, sillimanite or some other suitable refractory material Be a substance whose particle size is larger than that of the first coating mass and z. B. corresponds to the passage through a goo mesh sieve. You can use the same Tetrabutoxytitanium solution are prepared like the first coating mass.

For the lost wax process one uses z. B. for the first cladding of the wax model from a composition Zircon from the particle size io ooo meshes / cm2 ....... 8o parts Tetrabutoxytitanium ............ -. Parts Xylene ........ ............... 16 parts and choose a composition to fill out the form Sillimanite from the particle size goo meshes / cM2 .... 8o parts Tetrabutoxytitanium ............ 4. Parts Xylene ....................... 16 parts The grain fineness should correspond to the passage through the specified sieves.

Claims (2)

PATENT CLAIMS: i. Coating compound for wax models for the production of precision castings, consisting of refractory materials and a solution of tetrabutoxytitanium (C4 H9 O) 4 Ti. 2. Application of the coating composition according to claim i as a backing compound for coated models for the production of precision casting molds. Considered publications German Patent Nos. 220394, 493001, 5823L2, 887 6:24; U.S. Patent No. i 107011; British Patent No. 575734; French Patent No. 1,010,727; German patent application B1 6866 VI / fob (published on June 1, 1952); "Fette und Seifen", 54, 1g52, p. 35f.