RU2238544C1 - Test sample for radiography - Google Patents

Abstract

FIELD: radiography.

SUBSTANCE: device has transparent substrate in form of optical wedge having given density range, on each portion of scale of which in accordance to image of each set of wire indicators additionally made is image of set of plates of identical material. Thickness of each plate equals diameter of respective wire indicator. Diameter of image of each wire indicator is selected at limit of resolution ability of human eye, and contrast level is at level of physiological and psychic capabilities of professional operator.

EFFECT: higher trustworthiness of archived information during archiving radiographic images.

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Description

The invention relates to non-destructive testing of product quality by radiography, and in particular to test samples, and can be used in any industry, in particular, when archiving radiographic images.

In accordance with regulatory documents, radiographic images have a limited shelf life, for example, in nuclear energy, not more than 5 years.

In this regard, when storing radiographic images of welded joints of critical products, the service life of which is tens of years, there is an acute problem of maintaining information about the initial state of especially critical welded joints throughout the entire life of the products.

Currently, as a result of the development of computer technology, archiving tools for radiographic images have appeared by digitizing them by scanning and recording on magnetic media.

Computer archiving of radiographic images allows you to store the information available in them for virtually unlimited time, and also provides quick access to information and the transmission of digitized radiograms, including via the Internet.

However, computer archiving of radiographic images (films) is not permitted in areas that are subordinate to state supervisory authorities. This is due to the fact that known archiving systems do not allow to evaluate the authenticity and reliability of information obtained as a result of rewriting.

The utility model proposed by the applicant is aimed at solving this problem: “test - a sample for radiography”.

Currently, a number of test samples for fluoroscopy and radiography are known, for example, test sample a / c 397825, class. G 01 N 23/02, publ. 1973; test for radiation control a / c 1636744, class G 01 N 23/18, publ. 1991; standard for industrial radiography a / c 1814376, class G 01 N 23/18, publ. 1997; Patent No. 2085916, cl. G 01 N 23/04, publ. 1997, However, these test samples and standards, solving completely different problems, do not solve the problem indicated above, and therefore cannot be used when archiving radiographic images.

The closest set of essential features to the claimed invention of a test sample for radiography is the sensitivity standard for radiography described in GOST 7512-82 in the 2nd section of clauses 2.9-2.10, containing a flexible transparent substrate with a set of wire indicators of specified diameters from materials identical to the controlled.

The detection of a wire of the corresponding diameter of the sensitivity standard characterizes not only the contrast sensitivity, but also the resolution of the radiographic image. Therefore, the criterion for the suitability of a radiographic image for decryption (control is usually carried out with the naked eye on a negatoscope) is the detection of a wire of a certain diameter on the image, while the range of optical density of the image should be 1.5-3.5 units of optical density.

The reasons that impede the achievement of the technical result when using this standard is that if computer requirements for archiving radiographic images are guided only by these requirements, then loss of image details, for example, cracks, which, as a rule, have low contrast and low disclosure, is possible (significantly less than those regulated by GOST 7512-82 Section 2, Clause 2.10 of Table 2, image parameters of the wires of the sensitivity standard).

The essence of the proposed technical solution is to create a test sample that confirms the absence of information loss when archiving a radiographic image due to the presence of wire indicators on the test sample at the limit of the resolution of the human eye with contrast at the level of physiological and psychological abilities of a professional operator.

The specified technical result when using the present invention is achieved by the fact that for archiving radiographic images developed a test sample containing a transparent substrate with a set of images of wire indicators of given diameters, the substrate is made in the form of an optical wedge of a given density range, in each gradation section of which, respectively, the image of each a set of wire indicators, an additional image of a set of plates of the same material, the thickness of each second plate equal to the diameter of the wire of the indicator corresponding to it, wherein the diameter of the wire of the indicator image is selected at the resolution limit of the human eye, and the contrast level of physiological and psychological skills professional operator.

The implementation of the substrate in the form of an optical wedge of a given density range, in each gradation of which an image of a set of wire indicators is made, the diameter of which is selected at the limit of the resolution of the human eye, and accordingly, an image of a set of plates of the same material allows you to clearly determine the qualitative and quantitative characteristics of archived radiographic images , that is, information about various defects, in particular, on welded joints of products, and thus increase authenticity the validity and reliability of this information when recording it on a magnetic medium of a computer.

The signs given in the claims are necessary and sufficient to achieve the specified technical result, that is, they are essential. The presence of distinctive features in relation to the selected prototype indicate that the technical solution meets the criterion of “novelty” under current law.

The claimed invention for a specialist does not explicitly follow from the prior art and, therefore, meets the requirement of "inventive step".

Information confirming the possibility of carrying out the invention to obtain the above technical result is illustrated by the drawing, which shows a test sample for radiography. Containing a transparent substrate in the form of an optical wedge of a given density range d ₁ > d ₂ > d ₃ > d ₄ > d ₅ in each segment, respectively, of which gradation A, B, C, D, D, respectively, the image of each set of wire indicators 1, 2, 3, an additional image of a set of plates 4, 5, 6 is made of identical material, the thickness of each plate is equal to the diameter of the corresponding wire indicator, the diameter of the image of which is selected at the limit of the resolution of the human eye, that is, 0.05 mm-0.08 mm, 0, 1 mm and contrast n the level of physiological and psychological abilities of a professional operator, ie 0.02-0.03.

Archiving using the proposed test sample is carried out as follows: digitization by the scanner and the radiographic image and the test sample is carried out simultaneously. Moreover, if on a computer screen in one of the sections A, B, C, D, D (see drawing) an optical wedge of a test sample with a density close to the image density of the archived radiographic image (not shown), indicator images will be recorded wires 1, 2, 3 (see drawing) with a diameter of 0.1 mm or less, which means that as a result of digitization there were no loss of image details that are visually observed in the original radiographic image.

The test sample is a radiographic film in the form of an optical wedge with 5 gradations. The density of sections A, B, C, D, D is 1.0, respectively; 1.5; 2.0; 2.5 and 3.0 units of optical density, which corresponds to the permissible image density of welds during radiographic inspection according to GOST 7512-82. In each section there are images of wires and plates. The diameter of the wires 1, 2, 3 is 0.05 mm, respectively; 0.08 mm; 0.10 mm, and the thickness of the plates 4, 5, 6, made of the same material as the wires, respectively, is 0.05 mm; 0.08 mm; 0.10 mm. The contrast value of the images of one of the wires and plates of the same thickness is 0.03 units of optical density.

The image of the plates on the test sample is used to measure the image density of wires whose diameter is equal to the thickness of the plates. The need to have plate images is due to the fact that it is very difficult, and often almost impossible, to reliably measure the image density of small diameter wires, for example, 0.05 mm using known industrial densitometers.

The presence of three sizes of wire indicators on each gradation of the optical wedge of the test sample allows us to offer two archiving classes (with a contrast of 0.02 - the first and 0.03 second), each of which has three quality levels depending on the diameters of the wire indicators. If at the same time the radiographic image and the test sample were digitized in the corresponding gradation region of the optical wedge, the image of the wire of the required diameter was not detected, then the radiographic image lost information during archiving and either it is necessary to work with it using the capabilities of a computer or it cannot be archived.

For archiving radiographic images of welded joints of pipelines of the primary circuit of the VVER-440 nuclear reactor, a test sample was made from a radiographic film in the form of an optical wedge with gradations A, B, C, D, D equal to 1.0, respectively; 1.5; 2.0; 2.5 and 3.0 units of optical density, on which images of wire indicators of three diameters 0.05 mm, 0.08 mm, 0.1 mm and the corresponding thickness plates of identical materials are made. Using this test image, 80 x-rays were archived after 5 years of storage. 30% of the images were archived in the first class at the second level of quality, and 70% was archived in the second class at the second level of quality.

Thus, the proposed invention “Test sample for radiography" is industrially applicable with the above technical result: increasing the authenticity and reliability of the archived information. In addition, the proposed technical solution allows you to free large areas where radiographic images are stored, and to obtain a significant amount of chemically pure silver as a result of disposal of x-ray films after archiving.

Claims (1)

A test sample for radiography containing a transparent substrate with a set of images of wire indicators of given diameters, characterized in that the substrate is made in the form of an optical wedge of a given density range, in each gradation section of which, in accordance with the image of each set of wire indicators, an additional image of a set of plates of identical material is made , the thickness of each plate is equal to the diameter of the corresponding wire indicator, while the diameter of the image of each wire Foot indicators selected at the resolution limit of the human eye, and the contrast ratio of the physiological and psychological abilities of a professional operator.