RU2694417C1 - Method of finding and detecting hand traces on metal and other non-porous surfaces - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention relates to criminalistics, forensic medicine and can be used to find and detect traces of hands on metal and other non-porous surfaces for fingerprinting. For this purpose, the contaminated "fat" surface with hand traces is treated with a suspension of coloring substances in distilled water and a rinsing solution from a sprayer or by immersion into a vessel, where said suspension is located. Suspension contains a coloring substance (CS), distilled water (DV) and rinsing solution (RS) at ratio of (2–6):1:(10–20) respectively, wherein CS is selected from gouache production enterprises "PC chemical plant "Luch" and "Factory of artistic paints "Nevskaya Palitra", as well as dry art pigments production LLC "Experimental Workshop of Art Technologies", and rinse is selected from rinsers for dishwashers Bravix Klazspuler ("Dreco Worke GmbH") and "Paclan Brileo" (AO "McBride"). Suspension action time is 1–5 minutes, then treated surface is washed with water, dried and visually inspected.EFFECT: invention enables to obtain high-quality contrast traces of hands without further cleaning of traces with fingerprint brush on "fat" contaminated metal and other non-porous surfaces, which have been exposed to unfavorable environment.1 cl, 12 dwg, 4 tbl, 6 ex

Description

The invention relates to forensic science, forensic medicine and can be used to detect and detect fingerprints for conducting fingerprint studies. To do this, treat the investigated contaminated "fat" surface with traces of hands from a spray or immersion in a vessel, where the application of a suspension consisting of a coloring agent, rinse and distilled water with further UV exposure occurs. The invention is aimed at creating an effective and affordable way to identify traces of fingers and palms. The suspension consists of a coloring agent (OM), a rinse aid (OP) (liquid detergent) and distilled water (DV) in a ratio of (1-5): 1: (1-20) respectively, where as (1-5) dye substances are used artistic water-soluble paints (gouaches) and "dry" pigments, which allows you to get high-quality contrasting handprints without using a fingerprint brush on "oily" contaminated metal and other non-porous surfaces, the exposure time of the suspension is 1-5 minutes, while the metal and other fossil surfaces with traces of hands were exposed to the adverse effects of the external environment: low and high temperatures from –18 ° C to + 40 ° C, high humidity (water, snow, ice, mud), and gun grease, and traces can be of any age with ice formation.

The properties of the trace-sensing surface have a significant impact on the efficiency of detecting traces using various methods. With all the variety, these surfaces can be combined into nine main groups: smooth non-porous surfaces, paper and cardboard; plastic packaging material; soft vinyl (PVC); rubber and leather; metal (unprotected); unpolished wood; wax and wire surfaces, surfaces covered with a layer of glue. Among the listed main groups, the metal surface and the waxed surfaces on which the tests were carried out are named. Properly recorded and removed from the scene traces of hands on metal and other non-porous surfaces that are in the snow, at low temperatures, contaminated with gun grease, etc. (i.e., exposed to the environment), make it possible to solve a crime even after a long time has passed since it was committed. The success of work with traces depends on many factors, the main among which is the detection, fixation and removal of traces of hands in the process of inspecting the scene. Trace detection can be the result of a complex use of methods: from weakly visible by observation and contrasting after carrying out an appropriate treatment, for example, with fingerprint powders. Physical and physico-chemical methods are based on the properties of adhesion and selective adsorption of trace substances. The method of using ultraviolet and infrared rays is used to detect old as well as invisible marks on multicolor objects and is universal, i.e. can be used both on site and in laboratory conditions. In the ultraviolet rays are detected invisible and faintly visible traces of hands, formed by luminescent fingerprint powders. Physical methods of detecting handprints on various surfaces are known (Typical expert methods for investigating physical evidence ¹ ( ¹ Ed. By Dr. Yu.M. Dildin. M .: ECC of the Ministry of Internal Affairs of Russia, IPC "Interkrim Press" 2010, p. 146). The essence of the technique consists in staining colorless and weakly visible pozhizhirovyh traces of fingerprinting powders and their mixtures, soot flames, liquid dyes - emulsions, physical developers, as well as detecting traces of hands using ultraviolet, infrared and laser radiation. b using fingerprint powders taken us for analog.

In expert practice, special liquid products of various productions (“SPR”) are sometimes used to detect handprints, in which the component dyeing the substance is, according to some, molybdenum disulfide (MoS ₂ ), titanium dioxide (TiO ₂ ), or a fluorescent dye. They are designed to detect handprints on waxed, oily, wet, contaminated surfaces (where the use of fingerprint powders and other means of detection is ineffective). These funds have a high cost, are produced only by foreign companies and for this reason are almost not purchased for the needs of fingerprinting on the territory of the Russian Federation. The method described in the materials (http://Kiev-security.org.ua/box/19/120.shtml) is taken as an analogue, where finely dispersed reagent (SPR) is used, which is an aqueous suspension of the smallest particles of molybdenum disulfide (MOS ₂ ). They stick to the fatty constituents of handprints, and show them in shades of gray. Fine reagent is used to detect traces on smooth non-porous surfaces, including wet surfaces. This reagent is used instead of or after the physical developer. Identified traces should be immediately photographed, as the reaction products are very weakly adhered to the surface. Some of the special tools (for example, “SPR-White” (“Sirchie”), “SPR FluorescentUV” (“BVDA”)) need to be cleaned with a fingerprint brush after drying. In this connection, despite the existing recommendations, their use on highly oily surfaces should be avoided, where clearing with a fingerprint brush would inevitably lead to the loss of existing handprints (Fig. 2) (A. Chernitsyn and others. Modern methods and means of detecting , seizures, and studies of traces of hands.Tutorial - M. ECC Ministry of Internal Affairs of Russia, 2010).

The above special tools are taken by us as a prototype (Fig. 1, Fig. 2).

FIG. 1 shows: the surface of the pistol's bolt, with traces of hands 5 days old, which was in the snow at t -18 ° C for 24 hours, treated with a special fingerprinting tool “SPR-White” (“Sirchie”) before clearing with a fingerprint brush (A) and after cleaning with a fingerprint brush (B). Handprints become visible on the surface only after clearing with a fingerprint brush (B) (prototype).

FIG. 2. shows: the surface of the pistol bolt with traces of hands 7 days old, covered with gun grease, was in the snow at t -18 ° C for 24 hours and treated with a special tool “SPR-White” (“Sirchie”) before clearing with a dactyloscopic brush ( A) and after cleaning with a fingerprint brush (B). Prior to clearing with a fingerprint hand, the marks of hands are not visible on the surface (A), and as a result of clearing the “oily” surface, the marks of hands are lost (B) (prototype).

Thus, the disadvantages of analogs and prototypes include: the high cost of powders that are produced abroad, the need to use the cleaning of contaminated traces, and their inefficiency on contaminated (especially "oily") surfaces.

The technical problem to be solved using the proposed method for detecting and detecting hand marks on metal and other non-porous surfaces using suspensions is to expand the range of cheap and affordable tools, as well as tools that would be produced in Russia, without the need to overcome sanctions barriers, as well as obtaining a contrast trail on "fat" metal and other non-porous surfaces, where clearing contaminated handprints is excluded, and identifying hand traces on objects that have been in adverse environmental conditions (exposure to moisture, low and high temperatures, icing, etc.).

The technical result is achieved when implementing the developed invention, which consists in the use of suspensions of coloring substances in a diluted water and rinsing solution in the ratio OV: OD: DV as (1-6): 1: (1-26), respectively, the time of exposure of the suspension to traces 1 -5 minutes with further exposure to UV - study if necessary, while metal and other non-porous surfaces were subjected to adverse environmental effects: low and high temperatures from -18 ° C to + 40 ° C, high humidity (water, snow, ice, g tack), where artistic water-soluble paints (gouaches) and dry pigments are used as coloring substances, which allows to obtain high-quality contrasting handprints without clearing a fingerprint brush on "oily" contaminated metal and other non-porous surfaces. The technical result also consists in expanding the previously described method of detecting hand marks on contaminated metal and other non-porous surfaces using suspensions — special liquid means of various production (SPR), in which the component dyeing the fatty substance is molybdenum disulfide (MoS ₂ ), titanium dioxide (TiO ₂ ), or a fluorescent dye. It should be emphasized that these funds have a high cost, are produced only by foreign firms, and for this reason they are practically not purchased for the needs of fingerprinting on the territory of the Russian Federation. Currently, sanctions against Russia have been added (prototype). In addition to expanding the scope of the invention, it should be noted the high quality of the detected trace is well contacted on "oily" contaminated metal and other non-porous surfaces.

The developed method is implemented as follows: aqueous suspensions of artistic water-soluble paints (gouaches), “dry” pigments are made and used based on the color of the treated surface: dark surfaces are treated with white, light surfaces are treated with black, and fluorescent surfaces are applied on surfaces of any color (preferably on combined multicolor surfaces). In addition, you can make a suspension of "double" action. In their composition are white and fluorescent pigment, if necessary, affected by UV radiation.

For the manufacture of detecting suspensions using the following coloring components (water-soluble paints (gouaches) and "dry" pigments):

- White (titanium white, zinc white);

- Black (ferrous oxide black, soot, gas soot);

- Fluorescent (green, yellow, orange, pink).

The developed method is implemented in the following examples:

Example 1

The specialist handles the traces of hands on the surface of the pistol bolt with traces of 7 days old, covered with gun grease and lay in the snow at -18 ° C for 24 hours with a water suspension of artistic gouache (titanium whitewash, Classic) "Beam")) (Fig. 3, where A is the identified traces of hands on the surface of the shutter, B - copied onto a dactyl film. The surface of the shutter was not cleared with a fingerprint brush after processing).

The composition of the white suspension: gouache (titanium white) - 10 ml, distilled water - 100 ml, rinse aid for dishwashers - 5 ml, following the ratio: coloring agent (OB): rinse (OD): distilled water (DV), as ratio 2 : 1: 20, the processing time of suspensions is 2 minutes applied by a spray.

Example 2

Observing all the requirements of working with suspensions as in example 1, but unlike example 1, the surface of dark glass with handprints was treated with suspension (Fig. 4, where A is the surface of the glass treated with a detecting suspension based on white artistic gouache (titanium white), made without the addition of rinse for dishwashers, B - the surface of the glass is treated with a detecting suspension based on white artistic gouache (titanium white), made using a rinse for dishwashers. rinsing the slurry prevents water stains on the surface and improves the quality of the identified handprints).

Example 3

Observing all the requirements of working with suspensions, as in example 1, but unlike example 1, the suspension was treated with handprints formed of vegetable fat on the surface of the laminated cardboard. Traces were detected with an aqueous suspension based on a black artistic pigment (ferrous oxide black) (Fig. 5).

The ratio of components: gouache (black ferrous oxide): rinse: distilled water (5: 1: 10), the action time - 2 minutes.

Example 4

Observing all the requirements of working with suspensions as in example 1, but the difference is that the processing of the traces was carried out on the surface of the foil covered with oily layers and condensate. Suspension is a composition: artistic gouache (fluorescent green): rinse: distilled water in a ratio of 6: 1: 20, respectively. The processing time of the suspension is 2 minutes. The detected trace was photographed under ultraviolet light (Fig. 6).

Example 5

Everything is as in Example 4, but the mark was left on the adhesive layer of the stationery tape and revealed with an aqueous suspension based on artistic gouache (pink fluorescent). The ratio of OM: OD: DV as 2: 1: 10, respectively, the processing time of 1 min. The detected trace was photographed under ultraviolet light (Fig. 7).

Example 6

A fingerprint formed by animal fat was detected on the surface of a glass bottle with a laminated paper label with a water suspension based on artistic gouache (a mixture of titanium white and green fluorescent gouache), keeping the ratio - gouache (white titanium: green fluorescent): rinse: distilled water (3 : 1: 10). The processing time is 3 minutes, and the surface temperature of the bottle is 40 ° C (Fig. 8, where A is the detected footprint, photographed in daylight, B in ultraviolet light).

The use of aqueous suspensions, which are recommended for the detection of traces of hands on various contaminated surfaces:

Production of water suspensions of art water-soluble paints (gouache) and dry pigments.

Table 1 presents the recommended proportions of components for the manufacture of aqueous suspensions based on artistic gouache.

Table 2 presents the recommended proportions of the components for the manufacture of aqueous suspensions based on dry artistic pigments.

To obtain a detecting suspension, the components are thoroughly mixed until a homogeneous mixture is formed.

The tracing properties of the suspensions depend on the quality of the ingredients used. When conducting experimental studies, the best results were obtained when using gouache produced by the following enterprises: “PC chemical plant“ Luch ”. “Plant of artistic paints“ Neva palette ”: as well as dry artistic pigments produced by LLC Experimental Workshop of Arts Technology (dry pigments from other manufacturers have not been tested).

An unsatisfactory result was obtained when using gouache produced by: PC Tair LLC, Polypaks Production Company LLC.

Dishwasher rinses used in experimental studies showed the following results. Bravix Klarspuler (Dreco Werke GmbH) and Paclan Brileo (McBride) rinses are perfectly removed from the surface; much worse - “Finish” conditioner (“Reckitt Benckiser”).

Table 3 presents information on the tested samples of water-soluble and dry dyes.

The procedure for identifying handprints using water suspensions of water-soluble artistic paints (gouaches) and dry pigments:

The detecting suspension is applied to the surface by one of the following methods:

- Irrigated from a spray;

- Spread over the surface;

- Immerse the object in a vessel with suspension.

Immediately before use, the detecting suspension is shaken well, ensuring a uniform distribution of the precipitate.

When processing from a spray bottle, the surface is abundantly irrigated, holding the object over the sink or tray.

After treatment, the object is washed with running water or rinsed in a container with water. It is permissible to leave the suspension on the surface for 1-2 minutes, and if necessary - up to 5 minutes (see tab. No. 4), and then wash it off. At the same time it is impossible to allow its drying.

The treated and washed objects are dried on a clean substrate and examined visually at different angles to the light source. A visual inspection should be carried out in good light only after the surface has completely dried, since in this case the identified handprints acquire the greatest contrast (especially those revealed by white suspensions). When using a fluorescent suspension, handprints may not differ on the surface in daylight. In this case, the inspection is carried out under an ultraviolet lamp. If the suspension leaves stains on the surface after drying, up to 5 ml of rinse aid for dishwashers is additionally added to it and the surfaces to be examined are treated again.

The identified handprints are fixed on the surface of the object using photography and removed on a fingerprint film. Handprints detected on the adhesive layer are photographed and then covered with a transparent coating film. It is not recommended to fix handprints on the adhesion layer using a coating film prior to photo fixation, as they may lose contrast.

Table 4 presents recommendations for choosing a coloring pigment, based on the characteristics of the treated surface.

Legend:

+ - recommended

- - Not recommended

- допустимо

- acceptable

The use of aqueous suspensions is recommended to identify:

- “Fatty” handprints of any prescription of trace formation on clean non-porous surfaces (glossy and rough metal, glass, plastic, polyethylene, plexiglas, laminated and varnished surfaces, etc.) that were not exposed to negative environmental influences, as well as after exposure to moisture (ice , snow, rain, condensate), low or high temperatures, as well as sudden temperature fluctuations;

- Potozhirovy traces of hands of any old ice formation on non-porous surfaces, etc.) having oil layers (various oils, ointments, vegetable or animal fat, etc.), as well as after exposure to moisture (ice, snow, rain, condensate), reduced or elevated temperatures, as well as sharp fluctuations in temperature;

- Traces of hands formed on the adhesive layer of adhesive tapes, and other surfaces with adhesive properties.

Claims (1)

A method for detecting and detecting handprints on metal and other non-porous surfaces, including the processing of handprints with suspensions of coloring substances, characterized in that the “fatty” traces of any old trace that are on contaminated metal and other non-porous surfaces are applied from a spray bottle or by immersion in a vessel where is the suspension of coloring agents in distilled water and rinsing solution, in a ratio of coloring agent (S): rinse (OD): distilled Ode (LW), constituting (2-6): 1: (10-20), respectively, with the chemical agent selected from the gouache produced by the enterprises of the “Luch” Chemical Plant and the Nevskaya Palitra Artistic Paint Plant, as well as dry artistic pigments production LLC "Experimental workshop technology arts"; the rinse is selected from rinses for Bravix Klazspuler dishwashers (Dreco Worke GmbH) and Paclan Brileo (AO McBride); the exposure time of the suspension is 1-5 minutes, then the surface to be treated is washed with water, dried and examined visually.

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