GSR deposition along the bullet path in contact shots to composite models

Grosse Perdekamp, Markus; Arnold, Max; Merkel, Joachim; Mierdel, Katrin; Braunwarth, Roland; Kneubuehl, Beat P; Pollak, Stefan; Thierauf, Annette (2011). GSR deposition along the bullet path in contact shots to composite models. International journal of legal medicine, 125(1), pp. 67-73. Heidelberg: Springer 10.1007/s00414-010-0529-2

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In contact shots, all the materials emerging from the muzzle (combustion gases, soot, powder grains, and metals from the primer) will be driven into the depth of the entrance wound and the following sections of the bullet track. The so-called "pocket" ("powder cavity") under the skin containing soot and gunpowder particles is regarded as a significant indicator of a contact entrance wound since one would expect that the quantity of GSR deposited along the bullet's path rapidly declines towards the exit hole. Nevertheless, experience has shown that soot, powder particles, and carboxyhemoglobin may be found not only in the initial part of the wound channel, but also far away from the entrance and even at the exit. In order to investigate the propagation of GSRs under standardized conditions, contact test shots were fired against composite models of pig skin and 25-cm-long gelatin blocks using 9-mm Luger pistol cartridges with two different primers (Sinoxid® and Sintox®). Subsequently, 1-cm-thick layers of the gelatin blocks were examined as to their primer element contents (lead, barium, and antimony as discharge residues of Sinoxid® as well as zinc and titanium from Sintox®) by means of X-ray fluorescence spectroscopy. As expected, the highest element concentrations were found in the initial parts of the bullet tracks, but also the distal sections contained detectable amounts of the respective primer elements. The same was true for amorphous soot and unburned/partly burned powder particles, which could be demonstrated even at the exit site. With the help of a high-speed motion camera it was shown that for a short time the temporary cavitation extends from the entrance to the exit thus facilitating the unlimited spread of discharge residues along the whole bullet path.

Item Type:	Journal Article (Original Article)
Division/Institute:	04 Faculty of Medicine > Service Sector > Institute of Legal Medicine
UniBE Contributor:	Kneubühl, Beat P.
ISSN:	0937-9827
Publisher:	Springer
Language:	English
Submitter:	Factscience Import
Date Deposited:	04 Oct 2013 14:10
Last Modified:	05 Dec 2022 14:01
Publisher DOI:	10.1007/s00414-010-0529-2
PubMed ID:	21088971
Web of Science ID:	000285881600010
BORIS DOI:	10.48350/1530
URI:	https://boris.unibe.ch/id/eprint/1530 (FactScience: 203304)

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