DE505782C - Process for the production of a melting glass with low thermal expansion - Google Patents

Description

The invention relates to the composition of a compared to ordinary Glass types of difficult-to-melt glass, which at the same time have a low coefficient of expansion without losing its chemical resistance at high temperature becomes insecure. The union of these properties is the purpose of the procedure according to the invention and makes the ίο glass produced especially for the various areas of use suitable for electrical glass needs: production of vessels that are penetrated by current-carrying conductors, Tubes with several electrodes, vacuum and steam rectifiers, etc.

The glass in front of the blower lamp, which is generally less fusible when designing The difficulties that arise are as follows:

r. Since these glasses have an increased Have a melting point, they have an overall expansion (product of their coefficient of thermal expansion with the softening temperature), which is greater than the expansion of glasses usually used for Bubbles are used.

2. De-vitrify glasses with a high content of silica, lime, magnesia, barite and the like quickly when heated to their melting point. The superficial Crystallization makes it practically impossible to have two such disadvantageously altered surfaces to melt close together.

3. Other ingredients, such as lead oxide, antimony and the like, which glasses provide that the do not have either of the preceding defects are nonetheless to be discarded, and because of their inadequate persistence; when heated in a non-oxidizing flame they cover themselves with a conductive one metallic precipitate; it can be done with these glasses because of the necessary Use of an oxidizing flame only passage conductors or electrodes made of non-oxidizing metal (silver, Use platinum or iridium) which, on the other hand, have too high a coefficient of expansion of the glass.

These three considerations lead to a glass composed exclusively of silica, boric acid and xatron, whereby a small part of the silica can be replaced by alumina. Proceeding from these constituents, it is known that a little expandable and little fusible glass can be obtained by increasing the silica content (namely, the expansion coefficient decreases with the silica content, more than proportionally). However, if 75 "J ₀ silica content is exceeded, the melting occurs

difficult despite the use of special ovens; one is then forced to take refuge for adding additional components, for example iron oxide, arsenic or lime, to take to allow melting. These are ingredients that make devitrification favor and make these glasses unsuitable for work in front of the blower lamp.

ίο According to the invention it has been determined that for one and the same content of silica at approximately the given melting point the expansion coefficient passes through a pronounced minimum when in the Mixture of the constituent ingredients the ratio of parts by weight of boric acid and Baking soda is equal to or approximately equal to 85:15. The one that is based on this measurement Manufacturing process enables the manufacture of glasses which have a low Ge-.sarfit expansion and have a relatively easy melting.

Claims (1)

Claim: Process for the production of a fused glass with low thermal expansion, which can be used especially for electrical purposes, only from silica (a small part of which can be replaced by alumina), boric acid and soda, characterized in that boric acid and soda in a mutual weight ratio of 85:15 with a proportion of silica are fused, the 75 ° / ₀ is less than the total mixture.