RU2010554C1 - Method of measuring bullet contact speed - Google Patents

Abstract

FIELD: criminalistics. SUBSTANCE: method concludes in measurement of changes of the bullet when it interacts with the target. These changes are compared with standard measurements which correspond to specific speed of standard bullet. Changes in internal and external sizes of the bullet, shape and mutual relation of bullet members and weight of the bullet are measured. EFFECT: improved precision. 2 cl, 1 tbl, 2 dwg

Description

 The invention relates to medicine, in particular forensic science, and can be used in forensics to establish the contact speed of a 5.45 mm Kalashnikov assault rifle (AK-74).

 A known method of establishing the speed of a 5.6-mm shell-free lead bullet for a sports weapon by the degree of its deformation as a result of an impact on the diaphysis of long tubular bones. There are several types of deformations of the lead bullet as a result of its interaction with the bone, indicating them in points. The methodology for establishing the desired velocity of a fire projectile is: a) to assess the degree of deformation of the studied bullet in points; b) comparing the obtained value of the degree of deformation of the bullet with tabular data on the ratio of the velocity of the projectile and its deformation in points. The accuracy of the method is not given.

This method has the following disadvantages:
1) it is designed for use only in relation to a 5.6-mm lead non-shell bullet for sports weapons and only in cases when it affects the diaphysis with the length of the tubular bone of a person’s body;
2) the method cannot be used for injuries with modern full-time military weapons and in cases of penetration of personal protective equipment (for example, body armor). Meanwhile, it is precisely such injuries that are currently the most frequent, and their investigations - the most relevant.

 The aim of the invention is to determine the contact speed of a 5.45 mm shell bullet of a Kalashnikov assault rifle (AK-74) when firing at a protected target.

 The goal is achieved by the fact that in the method of establishing the contact velocity of the bullet, based on determining changes in the bullet during interaction with the target and then comparing them with the reference changes corresponding to a certain speed of the reference bullet, it determines changes in the external and internal sizes, shape and relative position of the bullet elements and mass changes, in addition, they can additionally shoot reference bullets with a given step of changing speeds for an equivalent target and for the resulting changes in reference points l specify a contact rate of the investigated bullets.

 In FIG. 1 shows the deformation of the shell bullet; in FIG. 2 - features of the internal deformation of the bullet.

 In FIG. 1 shows a view of a 5.45 mm bullet having a deformation of varying degrees: on the left - only the bow (end part); on the right - nasal and cylindrical; in FIG. 2 - features of the "internal deformation" of a 5.45 mm bullet as a result of penetration of body armor at different speeds: 1 - unchanged bullet; 2 - 477-582 m / s; 3 - 662-770 m / s; 4-820-850 m / s; 5 - 890-902 m / s.

Determined that:
1) as a result of the interaction of a 5.45 mm bullet with the protective structures of the bulletproof vest (mainly with a metal plate), it undergoes deformation. The degree of the latter is directly proportional to the contact velocity of the projectile. In this case, it was possible to distinguish two types of deformation:
- external, visible with the naked eye, which, depending on the speed of the bullet, can be localized mainly either only on its end part, or on the end and leading - cylindrical, or end, leading and tail. The extreme, maximum expression of a bullet’s deformation is its fragmentation, that is, fracture into fragments, fragments (see table and Fig. 1);
- internal, structural, which can be established using x-ray studies with direct magnification on devices such as "Electronics". This is a new approach for studying firearms. It is based on the fact that the 5.45 mm bullet has a complex internal structure and as a result of the bullet hitting the body armor, they are mutually displaced relative to each other.

The 5.45 mm caliber bullet for a Kalashnikov assault rifle (AK-74) has a relatively soft iron shell, under which there is a so-called “lead shirt”, and in the center its steel core has a truncated fusiform shape. At the end of the bullet there is a small cavity, unfilled with lead. This relative position of the bullet parts as a result of the impact changes. With a small contact velocity of the bullet, a decrease in the size of the cavity in the end part of the bullet occurs due to its partial filling with soft plastic lead displaced forward upon impact. With a greater intensity of the shock interaction of the bullet with the bulletproof vest, the indicated cavity is almost completely filled and wave-like irregularities, uneven thickness of the lead shirt around the central lead core are formed. A further increase in the collision velocity leads to an even more pronounced deformation of the lead shirt, the core shifts forward, and uneven cavities appear in the tail of the bullet (see table and Fig. 2). At the maximum contact velocity of the bullet, a rupture of its shell occurs, followed by fragmentation of the firearm into individual fragments. The described changes in the internal structure of the bullet are well detected by means of its X-ray examination and best of all by means of X-ray with direct magnification. It can be performed both with a bullet removed from the victim’s body and still located there (for example, during the examination of a living person);
2) as a result of the interaction of a 5.45 mm bullet with a metal armor plate, it loses part of its mass up to 1.3-1.7 g or more (see table);
3) the search and identification of a bullet or its fragments in the body of the victim is best done using a conventional x-ray examination. Its necessity is explained by the fact that: a) the wound channel from a 5.45 mm bullet in the victim’s body is very difficult to trace using other methods; b) in case of fragmentation of the bullet, several wound channels with a diverging direction are formed, which makes it even more difficult to search for and retrieve a firearm;
4) a comprehensive assessment of features allows you to determine the desired contact speed of a 5.45 mm bullet passing through a bulletproof vest, with an accuracy of ± 150-200 m / s;
5) if it is necessary to more accurately establish the contact speed of the bullet, it is necessary to conduct a comparative experimental study carried out according to the scheme traditional for forensic medicine and forensic science, in conditions similar to those being studied (the same weapons, ammunition, type of body armor, etc.) they carry out a series of experimental shots with body armor, properly dressed in a biomannequin. Then experimentally obtained firearms are studied and compared with the test. The coincidence of the damage characteristics of the compared bullets indicates the desired contact speed of the studied bullet (equal to the speed of the initial experimental bullet). The accuracy of establishing the speed of the 5.45 mm bullet in this case is much higher and is ± 50 m / s, then it is at the level of the best achievements of the theory and practice of ballistic research. That confirms the previously concluded that the claimed technical solution meets the criterion of "significant differences".

 Thus, the combination of known and new features allows you to get a new positive effect: determining the contact speed of a 5.45 mm bullet of a Kalashnikov assault rifle when firing at a protected target.

 An example implementation of the method.

 A 5.45 mm bullet from the cartridge to the AK-74 assault rifle, extracted from the body of the victim who was in the bulletproof vest at the time of the wound, received a ballistic examination. The law enforcement agencies asked the expert for a question about the contact speed of a fire projectile that caused a wound.

 During a visual examination of the bullet, it turned out that its end (nasal), cylindrical and tail parts were deformed (corresponds to 3 conditional bullet damage points).

 As a result of X-ray examination with a direct increase of 4 times, performed on the "Electronics-100" apparatus, it was found that there is no cavity in the end part of the bullet, the steel core is displaced towards the end part of the bullet by 3 mm from its usual level, the presence of pronounced deformation in in the form of wave-like irregularities of the lead bullet shirt, the presence of a cavity in the tail of the bullet.

 As a result of weighing the bullet, its weight was 2.55 g. When comparing it with the average weight of a bullet shot in an AK-74 machine (3.62 g), it turned out that the bullet mass loss was about 1.1 g.

 Therefore, all detected changes in the bullet relate to damage corresponding to the contact velocity of the projectile 820-850 m / s (see table).

 For a more accurate determination of the required bullet velocity, the following comparative experimental study was carried out: 9 shots were fired from a AK-74 assault rifle with a 5.45 mm caliber with standard ammunition in a bio-mannequin with a bulletproof vest on it, reduced to the following fixed speeds: 800, 850 and 900 m / with (two shots at each speed). After the completion of the experiments, the biomaneken is subjected to the usual sectional study, supplemented by a panoramic radiography of the body in two projections - to speed up the search and retrieval of the firearm projectile (s). The resulting firearms are studied according to the previously described scheme. At the same time, it was found that as a result of shots at a speed of 900 m / s, both bullets were completely destroyed (fragmented). Of the remaining intact: two bullets (contact speed of 850 m / s) were found to be the most similar to those under study.

 Thus, it was concluded that the desired contact speed of the studied 5.45 mm shell bullet of the AK-74 assault rifle, which caused injuries to the victim dressed in body armor, was about 850 ± 50 m / s (at P> 95%). (56) V. Kolkutin Forensic medical characteristics of gunshot injuries inflicted from a short distance, 5.6 mm non-shell lead bullets with different speeds. L., 1990, p. 21.

Claims (2)

 1. METHOD FOR ESTABLISHING THE CONTACT SPEED OF A BULLET, based on determining changes in the bullet during interaction with the target and then comparing them with reference changes corresponding to a certain speed of the reference bullet, characterized in that, in order to determine the contact speed of the 5.45 mm shell bullet of a Kalashnikov assault rifle shooting at a protected target, it determines changes in the external and internal dimensions, shape and relative position of bullet elements and mass change.  2. The method according to p. 1, characterized in that, in order to improve the accuracy of determining the contact speed, it additionally shoot reference bullets with a given step of changing speeds for an equivalent target and specify the contact speed of the studied bullet by the received changes of the reference bullets.

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