Effects of kinetic energy and firearm‐to‐target distance on fracture behavior in flat bones

Author:

Edwards Delaney1,Isa Mariyam1

Affiliation:

1. Department of Sociology, Anthropology, and Social Work Texas Tech University Lubbock Texas USA

Abstract

AbstractThis research implements a fractographic approach to investigate the relationships between kinetic energy, firearm‐to‐target distance, and various aspects of fracture behavior in gunshot trauma. Gunshot experiments were performed on pig scapulae (n = 30) using three firearms generating different muzzle (initial) kinetic energies, including a 0.32 pistol (103 J), 0.40 pistol (492 J), and 0.308 rifle (2275 J). Specimens were shot from two distances: 10 cm (n = 15) and 110 cm (n = 15). Features evaluated in fractographic analysis such as cone cracks, radiating cracks, crack branching points, and circumferential cracks could be easily identified and measured in flat bones and allowed for statistical comparison of crack propagation behavior under different impact conditions. Higher‐energy bullets produced more radiating cracks, more crack branching points, and longer fracture lengths than lower‐energy bullets. Distance had no significant effect on fracture morphology at the distances tested. That quantitative measures of crack propagation varied with energy affirms that kinetic energy transfer is important in determining the nature and extent of fracture in gunshot wounds and suggests it may be possible to infer relatively high‐ versus relatively low‐energy transfer using these features. Ranges obtained with the three firearms exhibited considerable overlap, however, indicating that other variables such as bullet caliber, mass, and construction influence the efficiency of energy transfer from bullet to bone. Therefore, fracture morphology cannot be used to identify a specific firearm or to directly reconstruct the muzzle (initial) kinetic energy in forensic cases.

Publisher

Wiley

Reference66 articles.

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