DE838336C - Process for shaping hot conductors that are difficult to handle from a combustion point of view - Google Patents

Description

Process for shaping materials that are difficult to treat from a firing point of view Thermistors Hcil.illeiter, especially those made from titanium oxides, compounds the alkaline earths and the heavy metals must have a cooking process; at be subjected to relatively high temperature. The bodies intended to be cooked are produced according to one of the previously proposed processes in such a way that that the offset obtained by mixing the individual components and dried a suitable plasticizer added and the resulting plastic Mass by a molding process, such as. B. by pressing or spraying into the desired thermistor shape is not possible. The body thus obtained is dried and subject to the already mentioned Gar-1> retlcil) i-ozel '). The burned body now shows certain deviations in its dimensions and compared to the shaped sometimes also in the form that can be traced back to the fact that in the oven sintering in progress and shrinkage as a result of the difficulties that very often stand in the way of supporting the body on all sides during the glow it is also warped. With many types of use of the NTC thermistor these deviations do not play a major role, especially at least the shrinkage can be compensated by adding mass during molding. But when it comes down to it, Manufacture thermistors with prescribed dimensions without an expensive mechanical post To have to make machining, so must the annealing process after the thermistor has been formed, either completely avoided or at least opened lower temperatures are limited.

According to the invention, in order to achieve precise dimensions, it is difficult thermistors to be treated, especially those made from titanium oxides, compounds of alkaline earths and heavy metals, proceeded in such a way that the Offset from which the thermistor is made, first sintered and then that the sintered mass is crushed and in this state with a binder in the desired shape is brought.

The building material can, depending on the grain size of its components be densely or porous sintered and is expedient in a certain grain size pulverized, which is matched to the binder to be used.

According to the invention, an electrically conductive paint, such as z. B. Phenolformaldehyde with colloidally distributed carbon black. The varnish is the crushed Offset added in an amount sufficient for plasticization and the resulting Mass into the desired shape, e.g. B. brought by pressing or spraying. The pressed one The body is then dried.

As in this manufacturing method, an annealing process after molding the thermistor is not required because the building material is characteristic of it Properties has already been obtained in the previous annealing process and this at the subsequent comminution and plasticization of the mass do not suffer any losses, In this way, NTC thermistors can be produced which have the specified dimensions exactly match. However, such a thermistor can only be used up to temperatures that do not endanger the strength of the paint. The permissible The maximum temperature therefore depends on the composition of the paint used.

In many cases, however, it is now desirable to use NTC thermistors have precise dimensions and are suitable for higher loads, than is the case with the thermistors produced with the aid of a varnish as a binder the case is. To produce such heat-resistant thermistors, according to the further Invention of the powdered compound instead of the paint, an organic binder added, which at temperatures of 'at most goo ° C completely charred, z. B. a Carbohydrates, such as sugar, and proteins, such as casein. The one with such a binder plasticized backing is pressed into the desired shape and then the pressed body after previous drying, a thermal aftertreatment at high temperatures subjected to a maximum of goo ° C. This carbonizes the binder and the resulting Carbon layer holds the thermistor mass together. Experience has shown that they tolerate this Manufactured thermistors temperatures of up to around .100 ° C without impairing their properties.

The method according to the invention allows, as a result of avoiding high, the dimensions of the material to be annealed, which influence the annealing temperatures after shaping of the thermistor to produce it in specified dimensions with such accuracy, that its installation without mechanical post-processing in precision mechanical apparatus with can be made with precisely dimensioned terminals and its electrical properties correspond exactly to the values calculated from the dimensions.

Claims (1)

PATENT CLAIMS: i. Process for shaping thermistors which are difficult to treat from a combustion point of view, in particular those which consist of titanium oxides, compounds of alkaline earths and heavy metals, characterized in that the offset from which the thermistor is produced is first sintered and that the sintered mass is then crushed and in this state is brought into the desired shape with a binder. z. Method according to claim i, characterized in that an electrically conductive lacquer, e.g. B. phenol formaldehyde with colloidally distributed carbon black is used. 3. The method according to claim i and a, characterized in that an organic substance is used as the binder, which carbonizes in a thermal aftertreatment of the body of at most 9oo ° C, for. B. a carbohydrate such as sugar and protein such as casein.