RU2652644C2 - Device for platinum coins, tokens and medals of the russian empire manufactured in the period from 1826 to 1845 identification and determination of the authenticity - Google Patents

Abstract

FIELD: control devices.

SUBSTANCE: using to identify and determine the platinum coins, tokens and medals of the Russian Empire authenticity manufactured in the period from 1826 to 1845. Summary of the invention is that the platinum coins, tokens and medals of the Russian Empire manufactured in the period from 1826 to 1845 authenticity identification and verification device, includes at least one radiation source and at least one radiation receiver with the information analysis and processing unit, at that, the radiation source and the radiation receiver operate in the emission spectrum range, which long-wavelength boundary falls at the shorter-wave radiation, namely the X-ray and gamma-ray emission spectra.

EFFECT: enabling an opportunity to analyze not only the authenticity external signs found in the infrared, visible and ultraviolet radiation spectrum, but also the internal structure, namely the detection of a specific "tubular" structure of platinum, characteristic for the platinum obtaining method from 1826 to 1845, as well as developing defects during the platinum aging, namely, release of impurities at the boundaries of inhomogeneities within the material under investigation, which allows to draw conclusions about the investigated articles authenticity with a high degree of reliability.

1 cl

Description

The method and technical devices manufactured to implement the above method relate to devices for verifying the authenticity of coins, in particular for platinum coins, tokens and medals of the Russian Empire, manufactured in the period from 1826 to 1845.

As a rule, it is extremely difficult to confirm the authenticity of platinum coins, tokens and medals of the Russian Empire, manufactured from 1826 to 1845. The difficulty in detecting fakes is confirmed by the opinion of the authoritative expert V.V. Uzdenikov, expressed in the monograph by V.V. Uzenikov, Coins of Russia of the 18th - early 20th centuries. Essays on Numismatics, 2004: "This essay does not cover issues related to identifying fake Russian platinum coins dated 1828 - 1845. This is explained by the fact that by now no signs have been revealed by which in the conditions of museums and similar organizations it would be possible to reliably distinguish such fakes from the originals. " Due to the extreme rarity, historical and material value of these products, authentication is an important task, which is especially in demand by museums, expert organizations and auction houses. The main difficulty when working with such products is the impossibility of taking samples of materials, surface treatment with abrasives or chemical reagents, which is associated with irreparable harm to the product, i.e. control methods should be exclusively non-destructive and not leave any traces of the tests performed.

However, methods for assessing the authenticity of platinum coins, tokens and medals of the Russian Empire exist:

The first method is hydrostatic weighing. This method is the simplest and allows you to reject fakes made not of platinum. The second method is an artistic analysis of the details of the obverse, reverse and edge of the coin, including the comparison of front and back stamps with genuine coins. This method reveals only gross fakes, where images of artistic elements do not correspond to the original ones. The third method is an X-ray fluorescence analysis of the chemical composition of platinum, which is part of the product. The analysis determines the chemical composition of the substance entering the product at a depth of not more than 1 micron. This method most reliably confirms the authenticity of the product, but has a number of significant drawbacks.

The main disadvantage of determining the authenticity of the chemical composition is that the original coins, tokens and medals were made of native platinum with a wide variation in the amount of natural impurities of iron up to 5%, iridium up to 1.5%, palladium up to 0.5%, ruthenium up to 1 % and copper up to 0.5%. Even when examining a genuine specimen, the presence or absence of the above chemical elements differs significantly in different parts of the surface of a genuine coin. Also, from the point of view of the current level of non-ferrous metallurgy, it is not very difficult to produce such an alloy under production conditions. In this regard, this method also does not provide a sufficient level of reliability when detecting fakes.

The disadvantage of all the above methods is the study of exclusively visible surface analysis factors and the inability to study the internal structure of the material of the object of study.

Devices for checking the authenticity of coins with different electromagnetic wavelengths are known.

A device for verifying the authenticity of sheet material in accordance with the patent for utility model RU 55178 U1 (IPC G07D 7/00), comprising at least one radiation source made in the form of an LED, at least one radiation sensor located in radiation registration zone, information analysis and processing unit. The radiation source operates in a pulsed mode and has a continuous spectrum of radiation, the long-wavelength boundary of which is visible and the short-wavelength - in the ultraviolet frequency range.

Obviously, to study the internal structure of the product material, it is necessary to apply penetrating radiation with a shorter wavelength than ultraviolet, namely, x-ray radiation with a wavelength of 0.005 nm to 10 nm or gamma radiation with a wavelength of less than 0.005 nm. The technical result of the application of x-ray and gamma radiation is the ability to study the internal structure of the controlled product with subsequent analysis and identification of the specific "tubular" structure of platinum, characteristic of the method for producing platinum from 1826 to 1845, but also developing defects during aging platinum, namely, the allocation of impurities at the boundaries of inhomogeneities within the test material, which allows a high degree of certainty to draw conclusions about the authenticity of the test product.

The specified technical result is achieved by the fact that in the device that implements the method, an x-ray tube with a focal spot less than 0.1 mm and a high anode voltage of more than 300 kV is used as a radiation source. Also, the Ir192 and Co60 isotope can be used as a source of gamma radiation.

The use of an x-ray tube with a focal spot less than 0.1 mm as a radiation source in a device that implements the method is due to the fact that, in order to identify the specific "tubular" structure of platinum characteristic of the method for producing platinum from 1826 to 1845, a focal spot is required that is no larger than the average size of the inhomogeneities inside the material under study, and preferably much smaller than the detected heterogeneity, i.e., the smaller the focal spot, the smaller the inhomogeneities that can be discovered.

It should be noted that the only way to obtain metal platinum in the period from 1826 to 1845 was the “wet” method of processing platinum, when native or “raw” platinum (ore) was dissolved in “royal vodka”, since platinum was melted technically impossible in the above period of history due to the high melting point of platinum, reaching 1768 ° C. Precipitating platinum chloride, and then calcining it, the resulting substance was converted into so-called sponge platinum according to the Sobolevsky method. In this form, platinum was pressed, heated and forged, thereby obtaining a specific “tubular” structure.

Lighter elements included in the alloy, such as iron, were concentrated at the boundaries of the above “tubular” inhomogeneities. The size of the "tubular" inhomogeneities, as a rule, does not exceed 0.1 mm. Over time, corroded iron, turning into oxide and losing density, becomes easily distinguishable for such penetrating X-ray and gamma radiation due to the large difference in the density of the base material, platinum and iron-containing impurities at the boundaries of the tubular structures.

Also, to implement the method, a flat-panel x-ray or gamma-ray detector is used as a radiation receiver, which forms a shadow image of the control object with subsequent transmission to the information analysis and processing unit.

During the study, the control object is placed between the radiation source and the radiation receiver, and mechanical manipulations of the control object along 6 axes are also provided, since the specific "tubular structure" can be located at any angle relative to the surface of the product.

When applying the method and technical device for its implementation, the identification of even several of these specific “tubular structures” in combination with the other methods of determining authenticity described above allows one to prove with authenticity the authenticity and authenticity of platinum coins, tokens and medals of the Russian Empire, made in the period from 1826 . up to 1845

Claims (1)

A device for identifying and determining the authenticity of platinum coins, tokens and medals of the Russian Empire, manufactured from 1826 to 1845, containing at least one radiation source and at least one radiation receiver with an information analysis and processing unit, characterized in that the radiation source and radiation receiver operate in the range of the radiation spectrum, the long-wavelength boundary of which falls on the shorter-wave radiation, namely, the x-ray and gamma-ray spectra.