DE827616C - Process for the production of plastic masses from refractory, powdery materials - Google Patents

Description

Process for the production of plastic masses from refractory, powdery substances The necessary to agglomerate a plastic mass The lower the frictional forces inside the mass and, the lower the pressure are on the walls of the device used to shape the mass. Anyway the pressure must be sufficient to cause a certain flow of the masses and around to reduce the shrinkage of the mass and thus the dimensional accuracy of the final product to improve. Deviations in shape are based on the evaporation of the binder before agglomeration. The higher the vapor tension, the stronger the evaporation desolate binder lies. For this reason, it is desirable to use one as the binder To use a liquid whose vapor tension is as low as possible. The presence such a liquid, which promotes the flow of the mass, has an effect but generally by reducing: the cohesion of the mass on its shape unfavorable. It is known that the use of clay-containing suspensions or Emulsions in which clay is present makes the shaping easier, because the clay ensures the necessary cohesion of the mass after it has been formed. It is still known that .the same goal in the absence of clay-containing constituents can be achieved by using aqueous jelly, for example made from ground meal, starch, etc.

It has now been found that such jellies can only be used manufactured plastic Masses show thixotropic properties .d. H. are able to change from the solid to the liquid state by simple pressure to pass over and then, after the pressure has been relieved, when the pressure is left to stand again, the firm one State to assume. This phenomenon can be seen in the shaping of the plastic However, only make use of mass if the transition from the liquid to .den solid state is going on pretty quickly. That is with the ones mentioned above. aqueous Jelly did not happen.

However, it has been shown that with gelatin from organic liquids and especially those with a lowering of the internal frictional forces of the mass Greasiness and refractory powders plasticizers can be made, where the thixotropic transition from the liquid to the solid state is sufficient moves quickly to ensure a good impression.

The invention therefore primarily provides for the manufacture of plastic masses made of powdery, refractory materials as a binding agent organic, expedient greasy liquid to use, which has a lower vapor tension than water, the vapor tension of which is therefore as low as possible. As examples are petroleum, oils and the like.

According to the invention, one can also check the cohesion of the thus obtained Increase unfired, agglomerated product by adding an additive, which is only effective through its adhesive strength, but on the thixotropic transition the crowd remains without influence. The introduction of such a substance turns out to be especially when it comes to producing objects, which have thinner parts or walls, e.g. B. is the case with crucibles.

Finally, it has been found that when using a plasticizer according to According to the invention, the pressure to be exerted during molding or extrusion is lower is than in the case of a plasticizer made from an aqueous jelly became. This fact has the advantage, among other things, that changes can be made easily in terms of the rate of pressurization. Such changes that would result in a change in the thixotropic behavior, from which In turn, there would be inaccuracies in the design.

The following are some examples that are produced in accordance with the invention Plasticizer described.

By dissolving 149 ceresin in 10 ounces of terpineol one obtains after cooling a jelly, which when mixed with 500g titanium oxide results in a paste, which can be molded under low pressure.

If you mix the aforementioned jelly with 600 g of magnesium titanate, so a paste is obtained in which the thixotropic transition from liquid to the solid state takes place immediately after the pressure has ceased, so that inan can very easily bring the mass into the desired shape by extrusion.

Ultimately, one obtains an extremely flowable plastic one Mass by forming a jelly from 7 g magnesium stearate and 25o g vaseline oil and this jelly then mixed with 315 g of titanium oxide. One can get out of this plastic Shape the mass into very thin objects. However, their resistance to deformation is quite low, and you can increase this by adding 3.5 g of rosin to the aforementioned mass admits that it does not change the forming conditions in any way.

You can determine the shape and purpose of the objects (tubes, bars etc.), the nature of the jelly and the powder as well as any adhesive used, the proportions of the ingredients and the manner in which the mixture is carried out , the level of agglomeration pressure and any processing of the formed Object and the type of shapes used, which are porous or metallic Walls o. The like. Can be chosen as desired, without thereby falling within the scope of the invention is left.

Claims (2)

PATENT CLAIMS: i. Method of making objects from refractory, in particular ceramic material, characterized in that on cold way under pressure a thixotropic plastic mass is formed, which from a Mixture of powdery refractory material and a non-aqueous gelatinous mixture which contains an organic solid and an organic liquid. 2. The method according to claim i for the production in particular of those objects which have thin parts, characterized in that the thixotropic plastic mass also contains a substance with suitable adhesive strength in order to increase the cohesion of the unfired object obtained after molding. indicates that the refractory material used is titanium oxide. B. The method according to claim 6, characterized in that rosin is introduced into the thixotropic plastic mass. 9. Thixotropic plastic mass, characterized by a mixture of a refractory substance and a non-aqueous jelly, which contains an organic solid and an organic liquid. .