SU947058A1 - Method for detecting fingerprints on the surface of object - Google Patents

Description

(5) METHOD FOR DETECTING FOOT TRAILS ON THE SURFACE OF OBJECTS

This invention relates to medicine and can be used in forensic science and forensics. The known method of detecting fingerprints on the surfaces of objects by treating the surface under study with atomic tritium with subsequent surface autoradiography D. A disadvantage of the known method is the need to place the objects under study directly in a block (reaction vessels) of vacuum units. This limits the number of subjects studied. The purpose of the invention is to simplify the process of carrying it on any surface. This goal is achieved by implementing the method of detecting finger traces on the surface of objects by treating the surface under investigation with atomic rubbing followed by autoradiography of the surface with tritium atoms pretreated paper, which is then brought into contact with the surface under study. The method is carried out as follows. The proposed method is based on the fact that, when treating paper with tritium atoms, labeled compounds with high specific activity are formed, the selective adsorption of which on the inhomogeneities of the surface under study makes it possible to reveal fingerprints. In carrying out the method, the surface of the object under investigation is brought into contact with the paper treated with tritium atoms, after which the autoradiography of the object under investigation is carried out. Paper processing with tritium atoms is carried out at an initial pressure of 1 and cooling at a temperature of from -5 to. 3 P r i m in p 1. The analyzed paper filter with an invisible fingerprint (2.5 years old contact with activated paper. The time interval between the preparation of activated paper and its use is 2 years. The contact time is 8 days After this, the sample is autoradiografied, for which MR-type photoplates are used. Exposure time 3 days 21 h After processing on the photoplate, you will see traces of papillary lines of the fingers. 2.5 years) is brought into contact with activated paper. The time interval between the manufacture of activated paper and its use is 2 days. Contact time B days. After this, the object is autoradiographed, for which MR photographic plates are used. Exposure time 3 days 21 h After processing, traces of papillary lines of the fingers were revealed on the photographic plate. EXAMPLE 3 A test glass sample with a weakly visible fingerprint (2.5 years old) was put in contact with the activated paper. The time interval between the manufacture of paper and its use is 1 day. Contact time is 8 days. After this, the object under study is autoradiographed. “For this, use is made of MP type photoplates. The exposure time is 3 days and 21 hours. After processing on the plate, traces of papillary lines of the fingers are revealed. An example. The test object — a glass plate with an invisible fingerprint (applied for 2.5 years) is brought into contact with activated paper. The time interval between the manufacture of activated paper and its use is 1 day. “The contact time is B of the day and 16 hours. After that, the object under study is autoradiographed. To do this, use a solid photo plate type MP. The exposure time is 3 days 21 hours. After processing, traces of papillary lines of the fingers are revealed on the photographic plate. EXAMPLE 5 The test object — a smooth plastic surface (table of the NU-2E microscope) with invisible fingerprints (application duration 1.0–1.5 h) is brought into contact with activated paper. The time interval between the manufacture of activated paper and its use is 6 days. The contact time is 22 hours. After this, the subject is autoradiographed. To do this, use a solid photo plate type MP. The exposure time is 16 hours. After hebrabotka, photographic traces of papillary lines of the fingers are revealed on the photographic plate. Primerbo The test object — an enamelled cuvette with invisible fingerprints (application duration 1.0–1.5 h) is brought into contact with activated paper. The time interval between the manufacture of activated paper and its use is 6 days. Contact Time 22 Cho After this, the subject is autoradiographed. To do this, use MR-type fob plates. Exposure time is 16 h. Traces of papillary lines of the fingers are revealed on the photographic plate. Example. The test object — the outer surface of a domestic refrigerator with invisible finger marks (application duration 1.0–1.5 h) is brought into contact with activated paper. The time interval between the manufacture of activated paper and its use is 6 days. The time of connection is 22 hours. After this, the object under study is autoradiographed. To do this, use a solid photo plate type MP. The exposure time was 1 h. After processing, traces of papillary lines of the fingers were revealed on the photographic plate. Froze The test object — writing paper with invisible fingerprints (application duration 1.0–1.5 h) is brought into contact with the activated paper. The time interval between the manufacture of activated paper and its use of the day. The contact time is 1 hour. After that, the object under study is autoradiographed. To do this, use a solid photo plate type MP. The exposure time is 3 hours. After the test, papillary lines of the fingers are revealed on the photographic plate. EXAMPLE 9 The predate under investigation is writing paper with invisible fingerprints (application duration 1.0-1.5 hours) is brought into contact with activated paper. The time interval between the manufacture of activated paper and its use is 24 hours. Time to tact is 3 hours. After that, the subject is autoradiographed. To do this, use a solid photo plate type MP. Exposure time is 3 hours. After processing, finger traces are revealed on the photographic plate. PRI me R 10. The test object — writing paper with invisible fingers (application duration 1.0–1.5 h) is brought into contact with activated paper. About the time interval between the manufacture of activated paper and its use of the day. Contact Time 5 Cho After that, the object under study autoradiographs. For this purpose, MP type photoplates are used. The exposure time is 3 hours. After processing, fingerprints appear on the photoplast. PRI me R 11. The test object — a porcelain plate with invisible fingerprints (application duration 1.0–1.5 h) is brought into contact with activated paper. The time interval between the manufacture of activated paper and its use is 23 days. The contact time is 2k days. After that, the subject under investigation is autoradiography. To do this, use a solid photo plate type MP. Exposure time 1 day. After processing, traces are revealed on the photographic plate. pillary line of fingers. Example 12, the subject of the study - an acetate film with an invisible fingerprint (application duration of 1.0-1.5 h) is brought into contact with activated paper. The time interval between the manufacture of activated paper and its use is 22 days. Contact time is 2k days. After this subject autoradiographically. To do this, use a solid photo plate type MP. Exposure time 1 day. After processing, traces of papillary lines of the fingers are revealed on the photographic plate. EXAMPLE 13 A test object — a glass plate with a slightly visible fingerprint (application duration 1.0–1.5 h) is reduced to 86 seconds. activated paper. The time interval between the production of activated paper and its use is 1 day. Contact time is 8 days. After that, the test sample autoradiograph. To do this, use a solid photo plate type MP. The exposure time is 3 days 21 hours. After processing, traces of papillary lines of the fingers are revealed on the photographic plate. The activation of the paper used in Example 1 is carried out as follows. A sample of tracing paper for the carcass is placed on the bottom of the reaction vessel. The reaction vessel is evacuated to pressure while cooled with liquid nitrogen (). Tritium gas is injected into the reaction vessel to a pressure and for 1.5 minutes an electric current is passed through the tungsten filament. The temperature of the tungsten filament. The paper thus activated is removed and then used to detect fingerprints. Activating the paper (tracing paper for ink) used in Example 2 is pro-. water under the following conditions: the initial pressure of tritium is 2.7; the heating time of the filament is 1.5 minutes; the temperature of the tungsten filament is 1700 ° C; the reaction vessel is cooled with liquid nitrogen. The activation of the paper (tracing paper for carcass) used in Example 3 is carried out under the following conditions: the initial pressure is tritium 2.2-10Chore, the temperature of the tungsten filament, the heating time of the filament is 1.5 minutes. the reaction vessel is cooled with liquid nitrogen. The activation of the paper (tracing paper for ink) used in examples k, 12 and 13 is carried out under the following conditions; The initial pressure of tritium is 2.3-10Ch, the temperature of the tungsten filament is 1700 ° C, the time of heating of the filament is 1.5 min, the reaction vessel is cooled with liquid nitrogen. The activation of paper (tracing paper for carcass) used in examples 5-9 is carried out as follows: 1st start of tritium - initial pressure of tritium 4 ,, tungsten filament temperature 1700 ° C, heating time of the filament k min, 2nd start trigi is the initial pressure of triti 6, thread temperature,

heating time 2 min. The reaction vessel is cooled with liquid nitrogen. The activation of the paper used in Example 10 is carried out under the following conditions: initial tritium pressure, filament temperature 1700 ° C, heating time of the thread 1.5 min., The reaction vessel is cooled with the mixture, water -f ice + sodium chloride (-5 ° C ).

The activation of the paper used in Example 11 is carried out under the following conditions: an initial tritium pressure of 2.8-ICT Top, a tungsten filament temperature, a filament heating time of 1.5 minutes. The reaction vessel is cooled with liquid nitrogen.

The proposed method allows for the detection of invisible and faintly visible fingerprints on polymer films, paper of various grades, on glass and porcelain. It has been established that on paper and glass fingerprints of up to 2.5 years old are detected. Consequently, the method is universal, as it allows to reveal fingerprints on objects that are very different in composition and structure.

Compared with the known method, the proposed method provides the appearance of fingerprints on any surfaces: there are no restrictions on the size of the objects under study.

Tritiated paper can be used repeatedly to retain its properties. Repeated use of activated paper reduces labor and time costs for researching a single object.

(reddmet) and, ultimately, simplifies the way.

Claims (1)

1. USSR author's certificate ff 675648, cl. G 01 N 33/16, 1977.