SU1693497A1 - Method of testing strength properties of ice in frozen moist loose materials - Google Patents

Abstract

The invention relates to X-ray materials, namely the means of controlling the properties of ice used in the development of ice modifiers for the mining, construction, chemical and other industries. The purpose of the invention is to simplify the control and increase the productivity of the method. The essence of the method lies in the fact that the strength characteristics of ice formed during the freezing of wet granular materials are established by measuring the X-ray diffraction distance. In this case, using samples with a known compressive strength and measured interplanar spacings, a calibration dependence is constructed, from which the strength of the test sample is then determined from the measured interplanar spacing. 1 tab.

Description

The invention relates to X-ray materials science, namely to means of controlling the properties of ice used in the development of ice modifiers for the mining, construction, chemical and other industries.

The purpose of the invention is to simplify the control and increase its productivity.

The method is carried out as follows.

Samples of the wet bulk material are prepared and some of these samples are mixed with reagents, the ability of which to modify the structure of ice in the frozen samples of this material is required to be determined. Then, samples of wet bulk material, processed and not treated with reagents, are frozen in a refrigerating chamber. Frozen samples are then subjected to X-ray structural analysis, with the support of the same temperature of frozen samples during which this analysis was carried out, at which they were frozen.

ABOUT

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From the diffraction patterns obtained as a result of the X-ray diffraction analysis for each of the frozen samples, the interplanar spacings are determined, which characterize the structure of the moisture frozen in the samples. Then, by comparing these values for the processed and untreated reagents frozen samples of the wet bulk material, the ability of the reagents to modify the structure of lhida in the frozen wet bulk material is determined.

Example. 15 samples of sintering products with a particle size of less than 5 mm and a moisture content of 3.1% are prepared. Samples 6–10 are treated with ammonia water, and samples 11–15 are treated with a natural solution of bischofite at the consumption of each of these reagents, as is customary in the practice of preventing wet bulk materials from freezing to 1.5% relative to the weight of the sample being processed. .

Then, samples processed and untreated with reagents are frozen in a refrigerating chamber at -40 ° C for 12 hours. Frozen samples are subjected to X-ray structural analysis on a DRON type X-ray diffractometer while maintaining the same temperature (-40 ° C) during which the analysis was carried out elk freezing samples.

X-ray analysis was performed in the following mode: radiation — Fe, radiation wavelength A 1, 93728 A, filter — Mp, slots 1x2x1 mm, voltage 20 kV, current 8 mA, radiation intensity 2000 m / s, threshold 35 V, constant integration RC 4 s, counter spin speed 1 deg / min.

According to the diffraction patterns obtained as a result of the X-ray diffraction analysis for each of the frozen samples, the interplanar spacings characterizing the structure of the moisture frozen in this sample are determined.

In order to compare the accuracy of determining the ability of reagents to modify the structure of ice in the frozen wet granular materials by the proposed method and known for each of the frozen samples on a hydraulic press, the uniaxial compression resistance values were determined o.

The numerical values of the interplanar distances d in the crystalline phases of frozen moisture in samples and the resistance to uniaxial compression of st for each of the frozen samples are given in the table.

The ability of the reagents (ammonia water and the natural bischofite solution) to modify the structure of moisture frozen in the samples of agro ores is determined by comparing the average di values for untreated (1-5) and treated (6-1 (5 and 11-15) reagents of frozen samples of agro ores.

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Claims (1)

Invention Formula The method of controlling the strength properties of ice in frozen frozen wet materials, including sample preparation, measurement of strength characteristics and a physical parameter that is sensitive to the determined strength characteristics, characterized in that, in order to simplify the control and increase its performance, the interplanar spacings of ice are used as the sensitive parameter, and the interplanar spacings for a series of samples with known strength are constructed According to the results of these measurements, the calibration dependence and with its help find the strength of the ice of the controlled material at the interplanar distance determined on its sample.