DE557804C - Process for the preparation of cryolite-bearing rocks - Google Patents

Description

The invention relates to a method for processing cryolite-bearing rocks and substances that, in addition to cryolite, also contain metal sulfides, quartz and cryolite-like substances, such as hagemannite, pachnolite and thomsenolite. So far it was not possible to process such substances only approximately completely into usable products. By the method according to the invention, an almost complete processing of the Cryolite-carrying substances achieved in that from the ground to flotation fineness Rocks and materials first remove the metal sulfides in a known manner by flotation and then hagemannite, Pachnolite and Thomsenolite deviating from the order of the natural wetting abilities together with the quartz by using known ones

ao alkaline additive as passivating agent printed into the mountains while at the same time adding the cryolite, swam out of fatty acid or fatty acid salts or derivatives of fatty acid and foam oil will.

While in general using the less viable oils hagemannite, Pachnolite and Thomsenolite come to swim before the cryolite, these substances are used according to the invention the alkaline passivating agent so influenced that they, at the same time Floating of the cryolite with which quartz go into the outlets.

It is known to use fluorspar, rutile and corundum through the use of alkaline additives to swim. However, these are substances that are not compatible with the additives react chemically, while this is the case with cryolite and cryolite-like substances. There is therefore a fundamental difference in flotation technology compared to what is known Behavior.

The removal of hagemannite, pachnolite and thomsenolite is of particular importance, because their iron or calcium content significantly reduces the value of cryoly products.

The new process means an extension of the cryolite processing also to such rocks and materials, the processing of which has so far not proven to be worthwhile.

In this way, concentrates were obtained from substances containing cryolite that could otherwise not be reprocessed, which contained only 0.2 to 0.3 per cent quartz and 0.06 per cent Fe. This went to cryolite only insignificant amounts in the flotation outlets.

The procedure is based on the following:

Hagemannite, pachnolite and thomsenolite are lyophobic, while quartz is lyophilic. Cryolite stands between the two, but leans more towards the former group. on The reason for these different properties of the minerals would result from one with the previous ones conventional means carried out flotation for the natural wettability

557SOi

in the following order: i. Hagemannite, Pachnolite and Thomsenolite, 2nd cryolite and 3rd quartz. By adding the said Passivating agent will deviate from this sequence to that effect achieved that hagemannite, pachnolite and thomsenolite approach quartz in terms of their flotation ability, while the Flotation ability of the cryolite is not or only imperceptibly changed by these means will. In any case, it is not significantly changed in the direction of the wetting properties of quartz. As a result, results for those influenced by the passivating agent Minerals in the following order for wetting abilities:

i. Cryolite, 2. Hagemannite, Pachnolite and Thomsenolite and 3. Quartz.

It is particularly noteworthy that the purity of the cryolite on the one hand and the lack of cryolite on the other hand, the outflows can be increased extraordinarily if the above-mentioned passivating agents in an amount of 5 to 50 kg / t solid that exceeds what is otherwise customary in flotation be admitted. While it is known per se, in swimming procedures Adding alkaline additives in quantities of 0.5 to 1.0 kg / t can be done during processing of cryolite with an additive as high as it is generally economical Reasons out of the question, because the cryolite is very expensive and thus the economy of the process not significantly affected by the increased addition of passivating agents will. In addition, the specified high addition of alkaline agents significantly accelerates the Process and an improvement in the cryolite, reducing the cost of the The additional consumption of alkaline agents can be compensated for by far.

Embodiments

ι. The metal sulfides were first floated out of a material containing cryolite and then the flotation of the cryolite in alkaline turbidity with the addition of fatty acid or fatty acid salts or derivatives of fatty acids and some foam oil. It the following values resulted:

product

Metal sulfide concentrate

1. Post-flotation cryolite concentrate

2. Post-flotation cryolite concentrate

1. Middle product

2. Middle product

mountains

Task .... weight spread.

1-49

51.77

2.33

5.00

24.50

100.00

Cryolite

63.90

99.54

96.72
89.00

43.92
13.20

74.41

outbreak

1.28
69.26

19.37
2.79
2.95
4.35

100.00

2. In the flotation of a material containing cryolite with a high content of cryolite resulted The following values are obtained using the same procedure:

product Weight
outbreak
% Cryo
lith
% the end
fracture
% Metal sulfide concentrate.,.;
i. Cryolite concentrate
2. Cryolite concentrate
Cryolite / Mountain Medium Product ...
mountains 1.22
88.33
0.89
3.21
6.35 60.9
99.7
99.0
95.4
81.8 0.76
89.91
0.90
3.13
5.3O Task.... 100.00 97.95 100.00

Claims (2)

Patent claims: ι. Process for processing rocks and materials containing cryolite, which in addition to cryolite also metal sulfides, quartz and cryolite-like substances such as hagemannite, pachnolite and thomsenolite, contain, characterized in that ground from the milled to flotation fineness Rocks and materials first remove the metal sulfides in a known manner by flotation and then hagemannite, Pachnolite and Thomsenolite, deviating from the order of the natural wetting properties, together with the quartz by using known alkaline additives as passivating agents are pushed into the mountains while at the same time the cryolite while adding fatty acid or fatty acids Salts or derivatives of fatty acids and foam oil is floated out. 2. The method according to claim 1, characterized in that the alkaline additives in an amount of 5 to 50 kg / t in excess of what is otherwise customary in flotation.