DE500414C - Process for the production of insulating layers less than 0.01 mm thick - Google Patents

Description

A process for the production of insulating layers is less than 0.01 mm thickness It has already been proposed to produce insulation materials of a Änzahl of layers whose thickness is smaller than 0.01 mm.

It has also been suggested to alternate layers of different ones To be stacked on top of each other in order to achieve particularly high dielectric strengths to obtain.

The present invention relates to a method of production a body built up from different layers k # by depositing the individual layers Shidlites with an electric field from a sol. According to the invention -, the layers verden by alternately lowering and increasing the field strength a liquid deposited, containing at least two substances in fine distribution contains and in which the ratio of the amounts of deposited substances from the Field strength depends.

Lowering and increasing the voltage is also understood to mean the full reversal of the voltage. By a suitable choice of the substances it can be achieved that the ratio of the deposited quantities also changes with changing field strength. If, for example, the amount i is deposited from each substance at a certain field strength, then Z, at twice the field strength of one substance the amount2 is deposited, but the amount 6 from the other substance. Depending on the field strength selected, the deposited layer therefore contains varying amounts of the selected substances. With a suitable choice of the liquid and the substances distributed in it, one can also achieve (below a certain field strength essentially only one, but above that the mixture of substances is separated sink, the deposited layer constantly changes its composition.This process ensures that the deposited insulating material is made up of different layers which, although they continuously merge into one another, are clearly differentiated from one another at regularly repeated intervals.

To deposit layers of different texture from a single fluid according to the present E rfindung can be, for example, proceed in the following manner: first prepared a sol of Äth -% - 1-cellulose is prepared by mixing ethyl cellulose dissolved in alcohol and pro7entigen to an i solution about 1 / "of the volume of water is added. Then a copal sol is prepared in the same way. The two sols are mixed after they have been prepared alternating currents superimposed by direct currents, only ethyl cellulose is separated in the minfinum of the tension curve because of its greater speed of migration; in the middle of the tension curve there is a mixture of both substances.

Since it can be achieved through a suitable choice of the liquid in which the layer material is distributed, or through the addition of suitable electrolytes, (let (read one layer material positively with respect to the liquid, the other negatively can also be achieved (let one substance be deposited on the anode, the other substance on the cathode. If you now have a uni polarity, the substance previously deposited on the anode is deposited on the cathode, and vice versa. This process is particularly useful The layer thickness depends on the duration of the current in each direction and can thus be set as desired by changing the frequency.

A Solgeinisch in which one body was positive in relation to the liquid, the other negative, can be achieved, for example, in the aforementioned example of ethyl cellulose and copal by adding N-water, if one ensures that the dielectric constant of the dispersant is between the dielectric constants the two Stof 'fe is located. In a similar way, a sol mixture of other suitable , Z, substances can also be produced. from which layers of different texture can be precipitated by changing the voltage *.

Claims (2)

PATr, NTAN SPRÜ CI-1 E: i. Process for the production of several spaced-apart insulating layers of different properties and preferably less than a thickness L 'by depositing the layer material with the aid of the electric field. characterized in that from a liquid. which contains at least two substances in fine distribution, and in which the ratio z # of the quantities of deposited substances depends on the field strength, layers of different properties are deposited on one another by alternately lowering and increasing the field strength. 2. The method according to claim r, characterized in that from a solution, which contains at least two substances in fine distribution (dispersion, sol), which are charge in different senses in relation to the liquid, by repeated inversion Layers of different properties are deposited on one another in the direction of the flow will.