RU2215282C2 - Procedure establishing content of garnet in ore and beneficiation products - Google Patents

Abstract

FIELD: dressing enterprises, development of ore deposits. SUBSTANCE: according to procedure samples of pure monomineral garnet fraction and fraction of enclosing rock that does not contain garnet are taken, their actual densities are found and rate of increment of content of garnet is computed. Samples of any beneficiation products are selected, their actual densities are determined and content of garnet in products is calculated. EFFECT: simplified procedure, its raised reliability and reduced time for its accomplishment. 2 cl, 2 tbl

Description

 The invention relates to the analysis of garnet-containing raw materials and can be used in enrichment plants, as well as in exploration of deposits.

A known method for determining the content of vermiculite mineral in ore and concentration products, which includes processing the sample with a solution of hydrogen peroxide at 70-80 ^o C, pouring water, separating the expanded vermiculite from waste rock, weighing it (see description to A.S. USSR 1503012 from 01.20.88, CL G 01 N 33/38).

 Due to the difference in physical properties of vermiculite and pomegranate, this method of determining the content of the latter is not applicable.

 There is also a known method for determining the mineral content in products by the method of quantitative mineralogical analysis, which includes taking a sample, sieving it into several size classes, viewing each class under a microscope, selecting and counting pure grains, rich and poor aggregates, determining their weight fraction by the number of grains ( see S. Mitrofanov. Study of ores for ore dressability. - M.: Metallurgizdat, 1954, p. 58-62).

 This type of analysis is resorted to in cases where the mineral mixture is represented by complex aluminosilicates and the diagnosis of one of them, in particular, garnet, is excluded by chemical analysis methods, since garnet does not contain chemical elements characterizing it individually.

The disadvantages of this method, taken as a prototype, are as follows:
the great complexity of manual selection under a microscope of mineral grains, when their number can be up to 10,000;
unavoidable errors arising from the quantitative assessment of not only pure grains, but also rich and poor intergrowths, in which the proportion of the mineral is visually estimated;
the need for screening the sample into several classes of fineness to facilitate the diagnosis and counting of grains under a microscope;
the failure to diagnose a small class of sample, where micron-sized particles form polymineral flocs due to adhesion forces.

 The present invention is the creation of a simplified method for determining pomegranate, devoid of the disadvantages of the prototype.

 Technical results that can be obtained using the proposed method are reliability and expressness.

где δ_max - действительная плотность чистой мономинеральной гранатовой фракции, г/см³;
δ_min - действительная средневзвешенная плотность фракции вмещающих пород, не содержащей граната, г/см³,
затем отбирают пробы любых продуктов обогащения, определяют их действительные плотности и содержание граната в них вычисляют по формуле

где δ_i - действительная плотность продукта обогащения, г/см³;
δ_min - константа уравнения, действительная средневзвешенная плотность фракции вмещающих пород, г/см³;
K - скорость прироста содержания граната, г/см³/%.The solution of the problem and the achievement of technical results becomes possible due to the fact that in the method for determining the pomegranate content in ore and dressing products, including sampling, samples of pure monomineral garnet fraction and the fraction of the host rocks are first taken, their actual densities are determined, and the growth rate of the garnet content is calculated from the formula

where δ _max is the actual density of the pure monomineral garnet fraction, g / cm ³ ;
δ _min - the actual weighted average density of the fraction of the host rocks, not containing garnet, g / cm ³ ,
then samples of any enrichment products are taken, their actual densities are determined, and the garnet content in them is calculated by the formula

where δ _i is the actual density of the enrichment product, g / cm ³ ;
δ _min is the constant of the equation, the actual weighted average density of the fraction of the host rocks, g / cm ³ ;
K is the growth rate of the garnet content, g / cm ³ /%.

 In this case, samples are taken in weights of up to 50-100 g and ground to a particle size of 0.16 mm.

 Distinctive features of the proposed method from the prototype are the following.

Затем отбирают пробы любых продуктов обогащения, определяют их действительные плотности (δ_i) и содержание граната (β_гр) в них определяют по формуле

Пробы отбирают навесками 50-100 г, что позволяет повысить надежность конечного результата за счет большей представительности пробы и измельчают до крупности 0,16 мм, что позволяет полностью раскрыть внутреннюю пористость зерна.First, samples of pure monomineral garnet fraction and the fraction of the host rocks (not containing garnet) are taken, their actual densities (δ _i and δ _min , respectively) are determined and the growth rate of the garnet content (K) is calculated by the formula

Then samples of any enrichment products are taken, their actual densities (δ _i ) are determined and the pomegranate content (β _g ) in them is determined by the formula

Samples are taken with 50-100 g samples, which improves the reliability of the final result due to the greater representativeness of the sample and grinds it to a particle size of 0.16 mm, which allows you to fully reveal the internal porosity of the grain.

где δ_i - действительная плотность продукта обогащения, г/см;
δ_min - константа уравнения, действительная средневзвешенная плотность фракции вмещающих пород, не содержащий граната, г/см³;
K - скорость прироста содержания граната (величина постоянная для данного состава руды) г/см³/%.In the proposed method for determining the content of pomegranate, a characteristic characterizing the mineral is used - density (δ). In garnet-containing ores, the actual density of garnet is significantly higher than the density of all other minerals. Therefore, the value of the actual density of the mixture of grains (ore, industrial product, concentrate, etc.) is determined by the proportion of pomegranate content in it according to the rules of the average weighted value. It was experimentally determined that in the range of garnet content (β _g ) from zero (garnet-free tailings of enrichment, fraction of host rocks) to 100% (pure monomineral fraction of garnet), the current weighted average density (δ _i ) varies linearly
δ _i = K • β _gr + δ _min ,
where from

where δ _i is the actual density of the enrichment product, g / cm;
δ _min is the constant of the equation, the actual weighted average density of the fraction of the host rocks, not containing garnet, g / cm ³ ;
K is the growth rate of the garnet content (constant for a given ore composition) g / cm ³ /%.

Due to the combination of new features, the proposed method for determining the content of pomegranate has:
high expressivity and ease of implementation;
eliminates errors associated with the selection and diagnosis of poor and rich sprouts of pomegranate in mineralogical analysis;
applicable to products of any size, up to dusty.

 The method for determining the pomegranate content in ore and dressing products is carried out on garnet-muscovite schists, their mineral composition is given in Table 1.

Далее, используя формулу

определяют содержание граната (β_гр) в продуктах обогащения - 5-ти классах гидравлической классификации концентрата мокрой магнитной сепарации гранат-мусковитовых сланцев, предварительно пикнометрическим способом определив их действительные плотности соответственно.First, a sample is taken weighing 100 g of a pure monomineral fraction of pomegranate, crushed to 0.16 mm, the actual density is determined by the pycnometric method: δ _max = 3.92 g / cm ³ . In the same way, the weighted average density of the fraction of the host rocks is selected, crushed and determined (in the absence of pomegranate in the mixture): δ _min = 2.76 g / cm ³ - a constant value for this variety. The growth rate of the garnet content (K) is calculated, a constant value for a given ore composition

Next, using the formula

determine the garnet content (β _g ) in the enrichment products — 5 classes of hydraulic classification of the wet magnetic separation concentrate of garnet-muscovite schists, having previously determined their actual densities by the pycnometric method.

 The results of determining the content of pomegranate by the proposed method were compared with the data of mineralogical analysis, which were subjected to five classes of hydraulic classification of the concentrate of wet magnetic separation of garnet-muscovite schists (Table 2).

From the data of the table it can be seen that the ratio of the data of the content of pomegranate β _g obtained by mineralogical analysis and the proposed method lies in the range 1.07-0.88, which is acceptable.

 The proposed method for determining the quality of a product from the value of the actual density of the main mineral and the effect of the latter on the weighted average density of ores and concentration products can be applied to other ores in which a valuable component has a higher density than native rocks (native metals, cassiterite, tungsten, scheelite and others), acting as an alternative to assay and chemical analysis methods, or rapid quality assessment.

 Thus, a comparative analysis of the prior art and the proposed method confirms the novelty of the proposed combination of essential features, and the use of the method is its applicability.

Claims (3)

1. A method for determining the content of pomegranate in ore and mineral processing products, including sampling, characterized in that the samples of pure monomineral garnet fraction and the fraction of the host rocks are first collected, their actual densities are determined, and the growth rate of the garnet content is calculated by the formula

where δ _max is the actual density of the pure monomineral garnet fraction, g / cm ³ ;
δ _min - the actual weighted average density of the fraction of the host rocks, not containing garnet, g / cm ³ ,
then samples of any enrichment products are taken, their actual densities are determined, and the pomegranate content in the products is determined by the formula

where δ _i is the actual density of the enrichment product, g / cm ³ ;
δ _min is the constant of the equation is the actual weighted average density of the fraction of the host rocks, not containing garnet, g / cm ³ ;
K is the growth rate of the pomegranate content, g / cm ³ /%.  2. The method according to p. 1, characterized in that the samples are taken in samples of 50-100 g.  3. The method according to p. 1, characterized in that the samples are crushed to a particle size of 0.16 mm

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