DE154975C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

Attempts to make artificial sandstone from sand or quartz and dolomite yielded the proof that pure magnesia is also capable of binding agents under certain circumstances for artificial sandstone to serve, in a similar way as this was done with the Use of lime and sand has become known. However, the use of magnesia instead of lime has the advantage

ίο that the magnesia mixture is extinguished the magnesia shows less tendency to clump together than the lime mixture, which leads to the production of homogeneous mixtures is very important because a complete extinction of all lime or magnesia particles for the production of good moldings is indispensable. ,.

Then with the same content of lime or magnesia, even if the lime or low-magnesia mixtures have a greater fire resistance of magnesia than that Lime moldings could not be determined, showed that the sand-lime bricks were considerably expand more in the fire than the magnesia sandstones. At a salary of 7 percent Lime or Magnesia, the briquettes with lime grow by 4 percent, those with magnesia by just 2 percent linearly.

In the case of mixtures rich in lime or magnesia, where there is less to a very high one Fire resistance as a great mechanical strength is important, it has been shown that the sandstones made with magnesia are more difficult to melt than those made with the products made with the same lime content. For example, a sand-lime brick melts for example Seger's cone 10, when the lime is replaced by the same amount of magnesia, that these stones have a melting point of 15 Segerkegel. From all attempts it appears that the moldings made with magnesia instead of lime are special have properties that differ from those of sand-lime bricks.

While one also burns those made with the addition of lime, not steam-hardened Dinas stones a lively action between the silica and the lime and therefore also a considerable hardening (Strength) observed, this applies to the known use of magnesia as a binder not to the same extent in the production of dinosaur stones. Burning tests containing magnesia as a binder If the firing was not preceded by a steam hardening process, artificial sandstones provided no sufficiently solid stones, apparently because the cement, the magnesia, is not full Effect had come.

On the other hand, the effect of the magnesia is significantly different when the magnesia sandstone hardened under steam pressure in steam kettles before firing. Then through the firing strength achieved is as from the experimental results referred to above emerges sufficiently high. After firing, they are the dinosaur stones made with lime superior in some ways. the end

this diverse behavior of the hardened and not. hardened magnesia sandstone So it appears that the mixture / of magnesia and quartz is hardening under. Vapor pressure undergoes a change, which 'has the consequence that a solid magnesia sandstone is produced.

Not all quartz materials show equally favorable results with this type of treatment, especially not those that grow strongly from the burning. From these crystals however, solid, refractory bricks are obtained if the quartz rock or sand in question is used is subjected to an annealing process before comminution and deformation, followed by quenching in water. The so and milled quartz comes with it

annealed

Magnesia as a binder makes a good refractory stone. While those made with lime Dinas bricks have a significant deflection at high temperatures, is the deflectability of the magnesia sandstone at high temperatures, such as Segerkegel 16 to 17, so low that they are in fire engineering Respect can be regarded as non-existent.

Claims (1)

Patent claim: Process for the production of refractory quartz bricks by steaming and the following Firing of the briquettes, characterized by the use of magnesia as a binding agent.