RU2155951C2 - Method of solid sample production and preparation for examination - Google Patents

Abstract

FIELD: geological ecological and process examinations. SUBSTANCE: method includes taking off weighed portion of source sample of object being examined. Weighed portion is ground, mixed with liquid and separated into heavy and light fraction gravitationally. Analytic weighed portion is taken from fractions for examinations. Weighed portion is ground up to size of less than 1 mm. For gravitational method use is made of inclined moving working surface with obstacles positioned along its edges. In process of classification light fraction of source material is drained from working surface, and heavy fraction is accumulated at its lower part near obstacle. Method enables use of large weighed portions of source sample (of more than 1 kg). EFFECT: enhanced accuracy and sensitivity.

Description

 This proposal relates to the field of obtaining and preparing solid samples for research and can be used in geological, environmental and technological studies of natural and technogenic objects.

 A known method of obtaining and preparing solid samples for research, including taking a representative sample from the test object, grinding it, isolating a fraction of a certain size, averaging the material, obtaining an analytical sample of the sample used in the study, using the operation of reducing the material by dividing it / Methodological Basics studies of the chemical composition of rocks, ores and minerals. / Ed. Ostroumova G.V. M.: Nedra, 1979, p. 130 - 148 /.

 The closest in technical essence to this proposal is a method of obtaining and preparing solid samples for research, including taking a representative sample from the original sample of the test object, mixing it with a liquid and obtaining an analytical sample used in the research / Fundamentals of quantitative spectral analysis of ores and minerals, Rusanov A.K. M .: Nedra, 1976, p. 197 - 198 - prototype.

 A disadvantage of the known technical solutions / analogue and prototype / is the low quality of the methods for producing and preparing solid samples for research, especially if the content of the determined components in the test object is small, which reduces the accuracy and sensitivity of the studies.

 The aim of the proposal is to improve the quality of preparation and receipt of samples for research.

 This goal is achieved due to the fact that according to the method of obtaining and preparing solid samples for research, including taking a representative sample from the original sample of the test object, mixing it with liquid and commissioning the analytical sample used in the study, mixing the representative sample from the original sample is carried out with water, this mixture is subjected to the gravitational method of separation into fractions, a heavy fraction is isolated, and it is used as an analytical sample for research REPRESENTATIONS. If the light fraction is of interest for research, a light fraction is also isolated, from which a representative sample is taken, while the analytical sample for research consists of two weighed samples that are being examined. In order to implement the highest quality and easiest way to obtain an analytical sample for research, a mixture of a representative sample of the test object with water is subjected to the gravitational separation method using an inclined working surface with obstacles that make movements. In the case of special studies, when it is necessary to open minerals or to study native metals, a representative sample from the initial sample of the test object is crushed to a particle size of less than 1 mm.

The essence of this method is as follows:
A relatively large representative sample for research is taken from the initial powder sample of the test object. Mix it with water and carry out the selection of a representative sample of the studied components in a separate small fraction in weight, which is used as an analytical sample for research. This method of instructing the analytical sample for research directly from the original representative sample of the object under study turned out to be possible after we created a method for classifying particles of powder material using an inclined movable working surface with obstacles located along its edges. By such a classification, it is possible to obtain a heavy fraction with a specific gravity of particles greater than 3.5 g / cm ³ , i.e. isolate ore minerals from the initial sample of the studied geological object.

 The use of large samples of the starting material in the proposed method increases the accuracy of the research results due to the representative samples of the studied object participating in the studies, and reducing the initial representative sample to the analytical sample concentrate / heavy fraction / 100-1000 times or more, increases the sensitivity of the study components by several orders of magnitude.

 An example of a specific implementation of the proposed method.

Task. It is necessary to conduct a geological search for placer gold. The geological region is investigated, consisting of silicate and aluminosilicate rocks / their specific gravity is less than 3.5 g / cm ³ /. Due to the uneven distribution of precious metals in geological objects, a representative sample sample coming for research should be more than 1 kg. In our case, the geologist takes about 2.5 kg of samples on the ground and delivers them to the field laboratory. There, using crushing, drying, and screening / screening, an initial sample was taken with a particle size of less than 2 mm and a weight of about 2 kg. Typically, such samples are packaged and sent for research to the central geological laboratory, where the preparation and receipt of the analytical sample and the selection of the analytical sample for the study takes place.

Example 1. According to the proposed method, the process of preparing and obtaining a representative analytical sample rationally carried out directly in the field laboratory. This process begins with weighing the initial sample or part of it - obtaining a representative sample of the sample for research. In our case, the weight of a representative sample of the initial sample with a particle size of less than 2 mm was 3 kg. After weighing the initial sample, a heavy fraction is isolated from it. To do this, the obtained sample is mixed with water 1: 2 / by weight / and sample particles with a specific gravity of more than 5 g / cm ³ are separated into the heavy fraction using an inclined movable tapering trough with a transverse partition installed in its lower part / cm. RF patent N 2085295 C1 "Method for the classification of particles of powder material", published on July 27, 1997 /.

For this, a sample of the initial sample, mixed with water, is uniformly fed into the upper part of the gutter for 10 minutes, the light fraction is poured from the gutter into the light fraction accumulator, while the heavy fraction accumulates in the lower part of the gutter at the transverse partition. The resulting heavy fraction was dried and weighed. The weight of the heavy fraction was 40 mg, i.e. there was a concentration of gold from the initial sample of 2 kg to a sample of 40 mg, the degree of concentration of 5 • 10 ⁴ . Next, the obtained sample - the heavy fraction / 40 mg /, is sent for research to the central laboratory, where gold is determined in this sample and its content in the initial geological sample is calculated taking into account the degree of concentration. In our case, it turned out that the sample of the heavy fraction contains 1% gold, and in the initial sample 2 • 10 ^-5 % / the average gold recovery in the heavy fraction is 70% /.

 Thus, the proposed method for the preparation and preparation of samples allows, in comparison with the prototype, to improve the quality of preparation and preparation of a sample for research by using large representative samples of the original sample of the test object (more than 1 kg) and a high degree of concentration of the studied components by the new method used to reduce the sample in the analytical sample samples. In addition, the proposed method is carried out in contrast to the prototype without the use of toxic liquids, much simpler and cheaper. It can be implemented directly in the field, where in the case of a gold search, it is possible to conduct and evaluate the gold content in the heavy fraction by the number of signs under a microscope. This allows the geologist to conduct a directed search.

 Example 2. If, when searching for a geologist, the main mineralogical composition of the sample is of interest, then after the separation of the representative exploratory sample / cm. example 1 / on the heavy and light fraction, from the light fraction is taken in the usual way / averaging, reducing the sample, dividing it into parts / representative analytical sample for research. This sample is sent to the central laboratory for research, together with an analytical sample of the heavy fraction.

 Example 3. In the case of a search for minerals that are found in nature in the form of native metal / gold, platinum, etc. / particles and particles poorly ground, the quality of the preparation and preparation of samples for research can be improved in the proposed method due to fine grinding initial sample of the investigated object. In this case, separation of the required components of the waste rock from the particles, destruction of mineral splices, fine grinding of particles — minerals of the rock itself — occurs. All this improves the process of extracting particles of the investigated components into the heavy fraction obtained in the proposed method / example 1 /. Gold extraction in this case, as shown by studies, rises to 90%. Therefore, to improve the quality of preparation and preparation of samples for research by the method described in example 1, before taking a sample of the initial sample for research, the initial sample is crushed to a particle size of less than 0.1 mm. Further, the process of preparing and obtaining analytical samples for research is the same as described in example 1.

Grinding the initial sample to a particle size of less than 0.1 mm leads to the fact that the weight of the heavy fraction is reduced to 20 mg, the gold content in the sample of the heavy fraction increases to 3%, and in the initial sample to 3.3 • 10 ^-5 %. Introduction to the proposed method of an additional operation - grinding the initial sample to a particle size of less than 0.1 mm, increases the accuracy of the study - the gold content in the test object increases from 2 • 10 ^-5 to 3.3 • 10 ^-5 % due to a larger opening of minerals .

Claims (1)

 The method of obtaining and preparing solid samples for research, including the selection of a representative sample from the original sample of the test object, its grinding, mixing with liquid, the gravitational method of separation of the representative sample into heavy and light fractions, the selection of analytical representative samples from fractions for analytical studies, characterized in that the selected representative sample from the initial sample is crushed to a particle size of less than 1 mm, and for gravitational separation of the crushed pre stavitelnoy attachment to the heavy and light fractions used method of classifying the particulate material using an inclined movable work surface arranged on its edges obstacles, wherein in the classification process light fraction starting material merges with the working surface, while the heavy accumulates in its lower part from obstacles.