DE929348C - Process for the production of decomposable plaster molds - Google Patents

Description

Process for the production of displaceable plaster molds Alkalis or acids, if possible with formation of gas, can be decomposed and so on. break up the structure of the hard plaster at the desired time. Such additives are above all suitable metals sc: such as carbonates or bicarbonates or mixtures of such salts. Of the metals, aluminum is the main one. Use magnesium, zinc, iron and tin in powder form, as well as their alloys. The first three metals have the valuable property that they can be decomposed under alkaline conditions. This will be discussed in more detail below.

Of the carbonates and bicarbonates, especially those of magnesium and alkaline earth have proven themselves. The oxides of the compounds mentioned can also be used, even if not for all purposes in the calcium oxide, owing to the blowing phenomena. The amount of additives is very different. In the case of metals, especially light metals, additions of up to 5 percent by weight of the gypsum are sufficient, in the case of carbonates. Bicarbonates and oxides of magnesium and alkaline earths are required in larger quantities in order to bring about the destruction of the gypsum in the necessary time. Additions of about 15 to 30 percent by weight are required here, depending on the demands placed on the strength of the plaster of paris.

It is well known in the art, plaster of paris for dental forms add larger quantities of metal powder in order to To improve thermal conductivity. The addition of metals here has the "purpose of improving the thermal conductivity the plaster forums allow better heat regulation in the manufacture of dentures to reach. This publication is the, possibility of a crazy decomposition of the metal-containing plaster mold by acids or alkalis in order to protect the produced therein Dental prosthesis cannot be removed.

The additives are generally expected to be compatible with the used Decomposition agents should go into solution. The acidic decomposition is therefore preferred using hydrochloric acid, which contains the metals and the magnesium and alkaline earth compounds converted into easily soluble salts. Heating increases the rate of decomposition here. With the amount of additives, you also need a considerable amount for larger pieces of plaster Amounts of hydrochloric acid, so that one usually concentrated or fairly concentrated Acid used. Working with hot acid, however, cannot be done without unpleasant smells carry out.

It is therefore beneficial to use such additives. to choose that one Can cause alkaline decomposition with alkalis. Incidentally, here has surprisingly showed that heating the alkalis does not significantly increase the decomposition process brings with it. The metals aluminum and zinc form easily soluble aluminates and zincate, the magnesium a very loose Hydro @ xyd, which by the developing Z hydrogen is removed from the plaster of paris. The decomposition takes a few hours completely in front of you, so that the workpiece has no damage to the decomposition bath can be taken.

Since the gypsum itself practically does not dissolve when it decomposes, but is only detached from the solid bandage, it is advisable to remove the plaster of paris on a grate from which the decomposed plaster can fall off and so the decomposing agent not denied access to the rest of the plaster mold.

Such a decomposition should be carried out in alkaline and acidic Decomposition agents each shown using an example from dentistry. example z The wax model of an upper jaw prosthesis is made in the usual way. It is now embedded in plaster of paris to produce the mold.

According to the invention, this hard plaster mixture consists of 97 percent by weight pure hard plaster and 3 percent fine aluminum powder, which are intimately combined. After mixing with water, this 1% mixture hardens very quickly and becomes solid. After sufficient delay, the wax model is melted out so that the finished Fcrin is ready to adjust the plastic prosthesis, for which example, i.els% veise a known mixture of monomers and polymers of methacrylic acid methyl ester is used, which gives accurate prints in the mold. This class is embedded and made the Po.l_vinerisation under pressure.

Instead of breaking the mold as before, or slowly and carefully to shred - where, despite all caution, the prosthesis can easily be damaged - the entire plaster mold is placed in a bath of 2% caustic soda. The plaster mold is placed on a grid made of wide-meshed wire mesh. the Decomposition sets in with vigorous development of hydrogen, the plaster of paris slowly in the form of heavy precipitation from the rust. falls down.

After a few hours, the decomposition is completely over, and on the Rust is left behind on the raw plastic prosthesis without any damage. example The production of the model and the mold are carried out as in example r. ,Just this time a mixture of 75 percent hard plaster and 25 percent magnesium carbonate used. The production of the plastic prosthesis proceeds in the same way again.

In the present case, hot ones are used to decompose the plaster of paris form concentrated hydrochloric acid which, with strong ionic acid development, breaks the plaster of paris brings to disintegration.

The selection of the additions can be made taking into account the working materials. In general, the paints and the like used are neutral. But if one believes that one cannot do without alkaline prosthesis materials, one must choose additives to the plaster that are alkaline

Claims (1)