RU2386121C1 - Method for detection of differential criteria in documents produced by methods of electrophotographic printing by magnetic toners - Google Patents

Abstract

FIELD: printing industry.

SUBSTANCE: method for detection of differential criteria in documents produced by methods of electrophotographic printing with application of magnetic toners consists in performance of documents research by detection of magnetite X-ray maximum broadening on X-ray pictures and in further comparative analysis of results.

EFFECT: improved efficiency in identification of documents manufactured by methods of electrophotographic printing with application of magnetic toners.

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Description

The invention relates to forensic science and forensic examination of documents, namely to identify signs of differences in documents produced by electrophotographic printing with magnetic toners.

A known method for detecting signs of difference in documents produced by electrophotographic printing, based on the study of the specifics of the formation of characters, the study of the nature of the distribution of toner in the whole sheet and in strokes, the nature of the distribution of toner particles in halos around the marks of marks and in free text areas of the sheet, also on the study of the displays on the sheet caused by defects of the heated pressure roller and transport rollers [1].

The main disadvantage of this method is the impossibility in some cases to identify documents produced by electrophotographic printing when studying only their macromorphological properties.

The aim of the invention is to increase the efficiency in the identification of documents produced by electrophotographic printing using magnetic toners.

Modern magnetic toners are a complex composite, the basis of which is made up of thermoplastic particles - styrene copolymers with (meth) acrylates <5 μm in size. Among other substances that are in the volume of particles of this polymer and determine the stability of its electrostatic, magnetic and other properties, magnetite nanoparticles are present. These nanoparticles make it possible to use the “magnetic brush” effect of charged toner particles to detect a latent electrostatic image (opposite sign) created by a scanning laser beam on the surface of a rotating drum of a printer. The toner particles in the form of an image from the photoconductor are then transferred to the paper due to electrostatic interaction upon contact between the photoconductor and the charged surface of the paper, and then are fixed thereon by the thermal force method due to the thermoplastic properties of the polymer base of the toner particles. To impart fluidity to the toner powders, the surface of the particles is modified with aerosil, alumina, or titanium dioxide nanoparticles.

The technical essence of the invention lies in the fact that the x-ray maxima in x-ray crystalline particles with a size of less than 150-200 nm begin to broaden, and the magnitude of the broadening increases in proportion to the decrease in particle size. Magnetic toners include nanosized magnetite. Particles of the nanometer range are obtained by chemical methods, the technological modes of which have a certain instability, which leads to variability in the size of the resulting particles. As a result, the size of the magnetite nanoparticles that make up the toners must be different for different toners. Carrying out an x-ray phase analysis of sample texts and determining the broadening of x-ray maxima in x-ray diffraction patterns allows us to differentiate texts printed with various toners according to one more characteristic.

The problem is solved by identifying signs of differences in documents produced by electrophotographic printing using magnetic toners, by examining documents with a subsequent comparative analysis of the results, moreover, the magnitude of the broadening of the x-ray maxima of magnetite in the roentgenograms is additionally determined during the study. The proposed method allows to increase efficiency in the identification of documents produced by electrophotographic printing using magnetic toners.

The following example reveals the essence of the invention.

Example 1

. излучения (ср. длина волны λ=1.54183 Å). Параметры работы генератора: ускоряющее напряжение 40 кВ, ток трубки 200 мА.The experiments were conducted with three documents printed on Hewlet Packard printers. It was not possible to differentiate them according to macromorphological characteristics. The phase composition of the toners was determined using a Rigaku D / Max-2500 X-ray diffractometer with a rotating anode (Rigaku, Japan). The survey was performed using Cu

. radiation (cf. wavelength λ = 1.54183 Å). The parameters of the generator: accelerating voltage 40 kV, tube current 200 mA.

The experimental results are presented in the table. X-ray line broadening (440), degrees HP 1 0.24 ± 0.01 HP 2 0.20 ± 0.01 HP 3 0.15 ± 0.01

From the data obtained it follows that all three documents are printed with different toners.

Thus, the present invention allows to increase the efficiency in identifying documents produced by electrophotographic printing using magnetic toners.

Literature

1. Possibilities for conducting forensic examinations in state forensic institutions of the Ministry of Justice of Russia. M .: Antidor, 2004, p. 84.

Claims (1)

A method for detecting signs of difference in documents produced by electrophotographic printing using magnetic toners, which consists in conducting a study of documents followed by a comparative analysis of the results, characterized in that when conducting the study, the magnitude of the broadening of the x-ray maxima of magnetite in the roentgenograms is determined.