RU2251093C1 - Method of determining degree of structure of black - Google Patents

Abstract

FIELD: investigating and analyzing materials.

SUBSTANCE: method comprises setting standard specimens of black and black specimen to be analyzed in a die, preliminary compressing of the specimen to be analyzed, measuring the height of the tab, finishing compressing of the tab, measuring the height of the tab, measuring the height of the tab of the standard specimen for the finishing pressure, and determining degree of structure from the formula proposed.

EFFECT: enhanced accuracy of measuring.

Description

The invention relates to methods for controlling the quality of soot (carbon black) and can be used both by the manufacturer and the consumer of soot.

There is a method of measuring the structure of soot (oil number), which consists in placing the analyzed and standard sample in the matrix, compacting the analyzed sample and measuring the height of the obtained tablet at a preliminary pressure of H ₁ and final - H ₂ , and the standard sample is sealed only with the final pressure and its height is measured N, and structurality is determined by the formula:

oil number (structural) =

The standard sample should be the same brand of soot, which is analyzed (RF Patent No. 1825117, CL G 01 N 3/00, publ. 03.11.93).

The disadvantage of this method is the measurement error.

The objective of the invention is to reduce the measurement error.

The problem is solved in that in the method for determining the structure of soot, including placing in the matrix of the analyzed and standard soot samples, compaction of the analyzed sample with preliminary pressure and measuring the height of the tablet H ₁ , compressing the tablet to the final pressure and measuring the height of the tablet H ₂ , measuring the height of the tablet H standard sample at final pressure, structural determination by the formula:

oil number =

according to the invention, at least once per shift, the height of the tablets of a standard sample is measured at a final pressure N, the analyzed and standard samples are dried to a constant weight before measurement and stored in a desiccator.

As studies have shown, measuring the structure of soot in a known manner under industrial conditions had a significant error. Standard soot samples in workshops were stored without protection against moisture, the soot samples also had high humidity.

EXAMPLE. To measure the structure, several grades of soot with different structure and dispersion are used. Samples are dried at a temperature of 105 ° C to constant weight. The moisture content of the samples must comply with GOST for carbon black.

A sample of soot of different masses is poured into the matrix, a punch is placed on top, placed in a hydraulic press and a pressure of 25.5 MPa is created. Then the displacement meter is turned on, the pressure is increased to 130 MPa, and the difference of the carbon black tablets is measured. The correction factor is determined and the structural value is calculated by the formula.

The table shows the data characterizing the dependence of the measurement error on the soot moisture.

Table Sample No. Humidity% Measurement error 1 0.01 0.1 2 0.05 0.12 3 0.1 0.2 4 0.5 0.3 5 0.8 1,0 6 1,2 2.0 7 1,5 5,0 8 2.0 7.0 nine 3.0 15.0

Thus, the use of soot with a moisture content of not more than 1.0% will dramatically reduce the permissible error.

Claims (1)

A method for determining the structure of carbon black, including placing in the matrix of the analyzed and standard carbon black samples, compaction of the analyzed sample with preliminary pressure and measuring the height of the obtained tablet H ₁ , compressing the tablet to the final pressure and measuring the height of the tablet H ₂ , measuring the height of the tablet of the standard sample at the final pressure H, structural determination by the formula: oil number =

characterized in that at least once per shift, the height of the tablets of a standard sample is measured at a final pressure N, the analyzed and standard samples are dried to a constant weight before measurement and stored in a desiccator.