SU1171736A1 - Dispersion method of searching ore deposits along flows and secondary spread halos - Google Patents

Abstract

DISPERSION METHOD SEARCH -. RGB ORE FIELD downstream and VTORICHNM halos, based on the selection and spectral analysis of the distribution of ore elements in samples of unconsolidated inland and marine sediments, characterized in that, in order to increase the efficiency of searching by detecting contrast halos scattering in disperse systems, eliminating factor mechanical contamination of the samples, as well as by express production of the fine fraction directly under field conditions, the advantage obtained is subjected to analysis. Ivanov fraction of particles less than 0.05 mm, the concentration of ore elements in which i is judged on the availability, position and extent of mineralization. (Ls

Description

with

o The invention relates to geochemical methods for prospecting ore deposits by streams and secondary halos of dispersion. The purpose of the invention is to improve the efficiency of exploration of clay mineral deposits and geochemical exploration of ore deposits by detecting contrasting halos of dispersion in dispersed systems, eliminating the mechanical contamination factor of the samples, and also by expressing a fine fraction directly in the field. The proposed method relates to geochemical methods of prospecting for ore deposits by flows and secondary halos of dispersion and the well-known method of lithochemical searches is characterized by the fact that the object of testing is natural disperse systems, the material of which is not distorted, like lithochemical samples during abrasion, is analyzed by that or by another method, for example, by emission spectral semi-quantitative. The essence of the proposed method consists in using the hydraulic properties of particles, their different rates of falling in water, depending on their size, it is possible to obtain the required amount of material for research directly at the sampling point - in the shooting variant or in stationary conditions during field work - in the version of the survey on the second haloes of dispersion, including on the dry channels of temporary streams in the version of the survey on the streams of dispersion. In the case of traditional lithochemical imaging, slope and channel samples are taken with a screen sifting of the selected material. Sieve with a hole diameter is usually used. 1 mm. Sifting can be carried out immediately at the sampling site if the material is dry or after sifting with preliminary loosening in stationary conditions, when there is (often) a large accumulation of untreated samples. In the granulometric analysis of loose deposits, the sieve method is used only with the separation of particles of 0.05 mm, i.e. 0; - 0.05 mm and larger. In lithochemical surveying using secondary haloes and streams, the use of situations with a hole diameter of 0.5 mm causes great difficulties in cleaning them. The sampling method in the pre-i method is based on the field method of elutriation. Since there is no need to obtain quantitative parameters of the separated fraction less than 0.05 mm, the main requirement for sampling is to comply with the following requirements: 1. The height of the water column above the dispersible material is 10 cm. The water is used is clean, its temperature is 15-18 ° C - applicable to stationary conditions of sample processing. 2. After stirring up, the sample is taken after 30 seconds. 3. After 30 seconds, the solution is drained off without sedimentation on the filter. It is necessary to merge carefully, so that no sediment gets on the filter. The sample number is pre-written on the filter. 4. The precipitate is washed gently with a stream of water. 5. Corner of filter with sediment is dried. When drying, the precipitate should be slightly softened, so as not to get a solid solid lump. 6. After drying, the sample can be sent for analysis. The contrast of the contents of elements in dispersive samples is high, not inferior to the contrast of the contents of the same elements in lithochemical samples. An increase is observed in the analysis of dispersion samples as compared to lithochemical secondary dispersion halos — an increase in their area and, consequently, in productivity, of such elements as molden and beryllium. One of the main indicators of the effectiveness of the proposed search method is that samples for analysis can be obtained directly under field conditions, and then analyzed without any processing by the main spectral semi-quantitative method. The application of the proposed search method can significantly reduce the occurrence of false anomalies and, accordingly, the cost of checking, not only at the stage of shooting by secondary ghosting

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and to the streams, but also to the stage of the spring shipment of samples, the passage of the

processing lithochemical samples - when, abrasion.

abrading them. In the crushing workshops, the proposed method has a known-known comparison with the most known different ore samples (pith, skolkovy5) and the decisive possibility of detection, etc., should be carried out by sulphide deposits, on ore testing samples of the salt migration form. lithochemical samples on the proposed (copper, zinc, silver, molybdenum, with the amount of 3% of each finger, mouse, gold, etc.).

Claims (1)

DISPERSION METHOD SEARCH-. OVER DEPOSITS OF ORE DEPOSITS FOR FLOWS AND SECONDARY SCATTERING HALOS, based on the selection and spectral analysis of the distribution of ore elements in samples of loose continental and marine deposits, characterized in that, in order to increase the efficiency of searches by identifying contrasting scattering halos in dispersed systems, eliminating the mechanical contamination factor samples, as well as by rapid production of finely dispersed fractions directly in the field, subjected to analysis obtained mainly by elutriation a fraction of particles less than 0.05 mm, according to the concentration of ore elements in which the presence, position and scale of mineralization are judged. >