DE654032C - Process for the separation and recovery of mica and feldspar - Google Patents

Description

Process for the separation and recovery of mica and feldspar Feldspar occurs on its deposits (solid rock, sands and soaps) always in company with mica and other minerals. For the use of feldspar in particular in the ceramic, enamel and glazing industries the same of iron-bearing minerals, such as B. iron-bearing mica (biotite), be free, as dark spots appear in the melt.

It has now been proposed to use mica by means of carbolic acid or coal creosote oil to swim out. However, this method yields one more Feldspar residue always mixed with mica, at best for production ordinary bottle glasses, * but not for more demanding purposes, such as. B. in ceramics.

In general, the task so far has been a proper separation of the Mica has not yet been satisfactorily resolved from the feldspar, and for this reason So far, large quantities of foreign feldspars have been imported annually. if one takes into account that the raw material feldspar occurs in large quantities in Germany, such as B. in granite, the feldspar sands, the trachyte, syenites, etc., and that the Extraction of these minerals does not pose any difficulties regarding the location, the Offers transportation, etc., the importance of what the invention strives for results Target. This has now been fully achieved in that the swimming pool treatment with the simultaneous addition of carbolic acid or coal creosote oil, one higher fatty acids or their salts, e.g. B. sodium oleate and terpineol.

Carbolic acid or coal creosote oil with the higher fatty acid or their salts serve as collectors, while the addition of terpineol the Foam strengthens.

While the use of carbolic acid or coal creosote oil for the flotation of feldspar, as indicated above, has already been proposed, the addition of sodium oleate by itself or with copper sulfate and terpineol for the mineral mentioned is already known. What is new, however, is the simultaneous use of carbolic acid or coal creosote oil with sodium oleate and terpineol. The invention accordingly consists in the simultaneous use of the above three substances. As was perfectly confirmed by comparative tests, the desired. Separation by none of the known; 'Uiet', drive reach. In the @ i @ i @ t experiments. a rough rock from the following Zusaixi ' setting treated: "'@k Si 02. . . . . . . . . . . . . . . . . . 72.4% K20. . :. . . . . . . . . . . . . . . 4.3 0o Nag O. . . . . . . . . . . . . . . 3.90 / 0 M90 ... ... . . . . . . . . 1.3 0/0 CaO ... . . . . . . . . . . . . . . 1.6 °, o - -, p1.1203. ... ... . . . ..... I5,2: .0 Feh 03. . . . . . . . . . . . . . . 135 % treated with the addition of the various floating agents, namely a sample i with coal creosote oil, a sample 2 with carbolic acid, a. Sample 3 with carbolic acid -j- sodium oleate -f- terpineol, a sample 4 with sodium oleate + terpineol, a sample 5 with sodium oleate -f- copper sulfate terpineol.

Even the products obtained clearly indicated that only sample 3 showed the desired success. Those made from samples i and 2 Melt flows showed dark spots, which were caused by the impurities remaining in the feldspar, especially iron, while the melt flow of sample 3 is complete was white. The plates made from the sample also show a completely pure white Colour.

In samples 4 and 5, the iron-bearing dark ones separated Mixed parts of the feldspar do not appear at all. A purified residue could be these attempts can therefore not be won at all.

In addition to the success of the clean separation directly achieved by the invention, the invention also has other advantages. The glasses made from feldspar cleaned according to the invention show an extremely good chemical resistance, which makes them particularly suitable for the production of objects for medical purposes and the chemical laboratory. Also resembled the splintering these glasses show tsignificant properties that those not inferior to the @ glasses. which with @ '' country feldspar.

In the following two further exemplary embodiments of the method according to the invention are given: i. A mixed feldspar-mica mixture with around 5010 mica was subjected to flotation with the addition of 3.5 kg of carbolic acid, 2 to 3 kg of sodium oleate and 500 g of terpineol per ton of starting material; the result is that all of the mica was made to float, leaving a pure feldspar residue.

In this way it is also possible to find other existing or about Preparation process to remove any impurities.

2. A feldspar rock (pegmatite), consisting of feldspar, quartz and Mica became after previous crushing - at ioo it with the addition of 2 kg Carbolic acid; 2 kg of sodium pleat and 500 g of terpineol per ton of starting material with the Success processed that a clean separation of the cast-floating mica from the Feldspar and quartz was obtained. There is no need to separate feldspar and quartz in this case, since the cleaned finished product can be used as such, because feldspar is also used for processing ceramic bodies and glassware Quartz needed.

Claims (1)

PAIFRNTANSPRUCFI: Process for the separation and recovery of mica and feldspar from feldspar-bearing rocks by foam swimming pool, characterized by simultaneous use of carbolic acid or coal creosote oil,: a higher one Fatty acids or their salts and of terpineol; as floating agents.