通过枪支识别不同损伤的计算方法。

Computational Approach to Identify Different Injuries by Firearms.

作者信息

Costa Sarah Teixeira, Freire Alexandre Rodrigues, Matoso Rodrigo Ivo, Daruge Júnior Eduardo, Rossi Ana Cláudia, Prado Felippe Bevilacqua

机构信息

Department of Social Dentistry, Forensic Dentistry Division, Piracicaba Dental School, University of Campinas, Piracicaba, São Paulo, Brazil.

Department of Morphology, Anatomy Division, Piracicaba Dental School, University of Campinas, Piracicaba, São Paulo, Brazil.

出版信息

J Forensic Sci. 2017 Mar;62(2):361-368. doi: 10.1111/1556-4029.13387.

DOI:10.1111/1556-4029.13387

PMID:28247449

Abstract

Complications arise in the analysis of gunshot wounds to the maxillofacial region, when neither the projectile nor the gun is found at the crime scene. We simulated 5- and 15-cm firing distances at a human mandible to investigate the external morphology of entrance wounds based on fire range. The ammunition models, .40-caliber S&W, .380-caliber, and 9 × 19-mm Luger, were constructed with free-form NURBS surfaces. In a dynamic simulation, projectiles were fired against mandibular body 3D model at 5 and 15 cm. All entrance wounds presented oval aspect. Maximum diameter and von Mises stress values were 16.5 mm and 50.8 MPa, both for .40-caliber S&W fired at 5 cm. The maximum energy loss was 138.4 J for .40 S&W fired at 15 cm. In conclusion, the mandible was most affected by .40-caliber S&W and morphological differences were observable in holes caused by different incoming projectile calibers fired at different distances.

摘要

当在犯罪现场既未找到射弹也未找到枪支时，颌面区域枪伤的分析就会出现复杂情况。我们在人体下颌骨模拟了5厘米和15厘米的射击距离，以根据射击距离研究入口伤口的外部形态。使用自由形式的非均匀有理B样条曲面构建了.40口径史密斯威森、.380口径和9×19毫米鲁格弹药模型。在动态模拟中，射弹在5厘米和15厘米处射向下颌骨体三维模型。所有入口伤口均呈椭圆形。对于在5厘米处发射的.40口径史密斯威森，最大直径和冯·米塞斯应力值分别为16.5毫米和50.8兆帕。对于在15厘米处发射的.40史密斯威森，最大能量损失为138.4焦耳。总之，下颌骨受.40口径史密斯威森的影响最大，并且在不同距离发射的不同入射弹丸口径造成的孔洞中可观察到形态差异。

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通过枪支识别不同损伤的计算方法。

Computational Approach to Identify Different Injuries by Firearms.

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