RU2158017C1 - Geochemical method of search - Google Patents

Abstract

FIELD: search for deposits of elements of platinum group, for deposits of gold and silver. SUBSTANCE: zones favorable for manifestation of concentrations of elements of platinum group are brought to light by results of study of geologic and tectonic situation. Areas with promising indications of presence of elements of platinum group are exposed on basis of ground examination of zones brought to light. According to specified plan samples of bedrock and/or loose deposits are taken from these areas. Samples are ground and abraded to lump size 70 μ. Prepared samples are subjected to analysis by scintillation optical ( spectral ) method for presence of elements of platinum group in mineral form. Selected samples of rocks are examined by visual-microscopic method to establish their nomenclature and to determine mineral composition of ore mineralization. Then interrelationship between found manifestation of platinum-bearing ability and geological environment of their presence is brought out and this basis sampling results are interpreted and presence of deposits of elements of platinum group is predicted. EFFECT: increased accuracy of determination, reproducibility of results and high sensitivity of exposure of mineral particles of elements of platinum group of microscopic sizes up to one micron. 4 cl

Description

 The invention relates to the mining industry to geochemical methods of prospecting for deposits and can be used to search for manifestations and deposits of elements of the platinum group (EPG).

 The lithochemical method of searching for secondary scattering fluxes is known (see the Instructions for the geochemical methods of searching for ore deposits. M., Nedra, 1983, pp. 69 - 109). The method includes determining the sampling scheme, sampling by collecting clay-clay or sand fractions of alluvial deposits from the surface or from a depth of 60 cm or more within the dry part of the channel of a temporary or permanent watercourse, combining the collected fractions into one sample weighing 200 g, sample processing, including drying, sieving through a sieve of 0.5 - 1 mm, reducing the sample to a sample weighing 50 g, abrasion to a fineness of 0.1 mm. Next, the samples are analyzed for the content of indicator elements and, by interpreting the results of the analysis, they judge the presence of a deposit. The disadvantage of this method is the low contrast of the content of EPG in the samples confined to the field, compared with samples taken outside the field, which does not allow to accurately identify the field.

 Closest to the invention is the lithochemical method of searching for primary halos (see Instructions for geochemical methods of searching for ore deposits. M, Nedra, 1983, pp. 57 - 69). The method includes determining the sampling scheme and taking on-site samples of bedrock in the form of 8-10 pieces (chips) of no more than 3-4 cm in size. Samples are crushed in jaw crushers to a particle size of 5 mm, then crushed in a roller crusher to a particle size of 1 mm , mixed, reduced by quartering to a sample of 50 - 100 g, then abraded and analyzed for the presence of indicator elements in them. Further, the results of testing are interpreted and depicted, on the basis of which they judge the presence of a deposit.

 The disadvantage of this search method is a blind gross search of zones of concentration of EPG with low accuracy, reproducibility and sensitivity of detection of EPG in natural formations.

 The technical result achieved by the invention is to increase the accuracy of determination, reproducibility of the results and high sensitivity to detect mineral particles of EPG of microscopic size (up to 1 μm), which cannot be detected by other express methods.

 The indicated result is achieved by the fact that the geochemical method of searches consists in taking samples of bedrock and / or loose deposits on the ground according to a given pattern, grinding and abrasion of samples, their analysis for the presence of indicator elements in them. Testing results are interpreted and depicted, and images are used to judge the presence of a deposit. The invention differs from the prototype in that the sampling scheme is set based on the results of studying the geological and tectonic situation in the studied region with the allocation of zones geologically favorable for the manifestation of EPG concentrations, and on the basis of a ground study of the identified zones (areas), areas with a complex of geologically especially favorable are identified signs for finding manifestations of EPG. Samples are analyzed by optical scintillation on EPG, which are contained in intrinsic mineral microparticles, recorded in platinum deposits, with parallel microscopic determination of the rock nomenclature and ore mineralization composition at the sampling points, and the identified relationships between the detected EPG concentrations and the geological environment of their location serve as the basis for interpretation test results. Along with EPG, the accompanying gold and silver are revealed. Local areas located within the zones of the former or modern tectonic-magmatic activation accompanied by manifestations of ancient and modern ultrabasic and basic magmatism and volcanism are selected as zones favorable for the manifestation of EPG concentrations.

 Areas that are promising for the concentration of EPG are primarily selected taking into account geologically favorable conditions: zones of former or modern tectonic-magmatic activation, accompanied by manifestations of ancient and modern ultrabasic and basic magmatism and volcanism. The selected samples are abraded to a particle size of 70 microns.

 The invention is a universal way of searching for EPG deposits with high accuracy, reproducibility and sensitivity, since already at the stage of determining the sampling scheme, the results of the analysis of the geological and tectonic situation are updated on the ground by geological study of the identified favorable zones with the allocation of promising areas on them. Analysis of the samples is carried out by the most accurate and informative scintillation optical method (for these purposes) with an additional study of the mineral composition of the samples, which significantly increases the reliability of the search results for platinum deposits. The invention allows to find the concentration of EPG in natural (primary) and technogenic (secondary) manifestations (objects), in solid rocks and loose deposits, repeatedly reducing the area of prospecting within geologically favorable zones, narrowing them to specific sites, ore and placer occurrences, testing rocks, zones and manifestations of mineralization, sedimentary and loose deposits, most indicative of platinum metal bearing.

 The invention leads to a new information level of obtaining information not only about the places of concentration of EPG, but also about the mineral forms of the presence of EPG in the studied rocks and ores, that is, about the composition of minerals and the dimension of mineral particles of EPG with the fixation of microparticles up to 1 μm in size.

 The method is several orders of magnitude cheaper than currently known and used, which is especially important when processing a large amount of search and evaluation data. In addition, the method provides information only about the mineral forms of EPG, cutting off impurity forms.

 An example of a specific use of the invention is our work 1990-1991 to identify platinum in the Aldan-Ust-Uchurskaya area of several thousand square kilometers of inaccessible, uninhabited, mountain taiga territory. Previously, scanning small-scale satellite images of the Meteor series, multizone space images of the Cosmos series, black-and-white and synthesized images were previously studied. As a result of the study of lineaments, a structural map of the lineament network was compiled, on the basis of which the nodal intersections of lineaments, characterized by anomalous tectonic tension, were identified. As a result, a promising ore-concentrating zone was identified - Aldano-Ust-Uchurskaya Square. Then, sections of an anomalously high density of the regional fracture field were studied. These sites coincided with the selected zone. And, finally, an analysis of the metallogenic significance of linear and nodal elements of the removed lineament network was carried out, which also confirmed the prospects of the Aldan-Ust-Uchursky area as a predicted ore-bearing zone. Here were conducted field (landing) geological research. Quaternary channel, terrace and, in some cases, slope deposits were subjected to schlicho-geochemical testing at points favorable for the concentration of heavy minerals. Pit and fragmentary samples were taken at promising sections of root outcrops and eluvial block rock collapses belonging to the ultramafic-mafic group of formations, as well as from sulfidized and hydrothermally altered rocks. In laboratory conditions, the samples were analyzed by an optical scintillation method (after grinding and abrasion to a particle size of -70 μm) and were studied by a visual microscopic method to determine the rock nomenclature and ore mineralization composition. As a result of the revealed interconnections between the revealed platinum bearing manifestations and the geological environment of their location, it was concluded that there are platinum deposits in eight sites: Ulakhan Dyunyuken, Jenyukyan, Ulakhan Siligilee, Saltun, Elgekeen, Chagda, Teryut-Salaa, Golny Ostrov and Byraya.

Claims (5)

 1. The geochemical method of searches, including taking samples of bedrock and / or loose sediments according to a given pattern, crushing them and analyzing for the presence of the required indicator elements and judging from the images the results of testing about the presence of the desired deposit, characterized in that according to the results of studying the geological the tectonic situation of the region under study by compiling satellite images of a lineament network map, based on which nodal intersections of lineaments are distinguished, characterized by anomalous tectonic stress By analyzing the metallic significance of linear and nodal elements, they identify local areas that are geologically favorable for the manifestation of the concentrations of platinum group elements (EPGs), determine the pattern of their ground testing, and analyze samples using an EPG scintillation optical method, determine the nomenclature of rocks and the composition of ore mineralization metallogenically promising for the desired elements.  2. The geochemical method of searches according to claim 1, characterized in that as the zones favorable for the manifestation of concentrations of EPG, select local areas located within the zones of former or modern tectonomagmatic activation, accompanied by manifestations of ancient and modern ultrabasic and basic magmatism and volcanism.  3. The geochemical method of searches, according to claim 1, characterized in that ultrabasic and basic magmatic and volcanic rocks, manifestations of ore mineralization, as well as sedimentary solid and loose (alluvial) sediments, which are promising for EPG, are distinguished in the identified zones.  4. The geochemical method of searches according to claim 1, characterized in that the samples arriving at the elemental analysis are abraded to a particle size of 70 microns.  5. The geochemical method of searches according to claim 1, characterized in that the noble metals associated with the EPG are identified - gold and silver.