Penetration Thresholds of Porcine Limbs for Low Sectional Density Projectiles in High-Rate Impact

Author:

LeSueur Joseph1ORCID,Koser Jared2ORCID,Hampton Carolyn3ORCID,Kleinberger Michael3ORCID,Pintar Frank A12ORCID

Affiliation:

1. Joint Department of Biomedical Engineering, Marquette University and Medical College of Wisconsin , Milwaukee, WI 53223, USA

2. Department of Neurosurgery, Medical College of Wisconsin , Milwaukee, WI 53226, USA

3. US DEVCOM Army Research Laboratory , Aberdeen, MD 21005, USA

Abstract

ABSTRACT Introduction With similar prevalence to injuries from fires, stings, and natural disasters, soft tissue injuries may occur from fireworks, industrial accidents, or other explosives. Surgeons are less familiar with treating high-velocity penetration from small debris, which may increase the chance of infection and subsequent fatality. Penetration risk curves have been developed to predict V50, the velocity with 50% probability of penetration, for various sized projectiles. However, there has been limited research using nonmetallic materials to achieve lower density projectiles less than 1 g cm−2, such as sand or rocks. Material and Methods To emulate the size and density of these energized particles, 14 ball bearings of stainless steel, silicon nitride, or Delrin acetal plastic ranging from 1.59 mm (1/16”) to 9.53 mm (3/8”) with sectional densities between 0.3 g cm−2 and 5  g cm−2 were launched toward porcine legs at a range of velocities to determine the penetration thresholds. High-speed videography was captured laterally at 40 kHz and impact velocity was captured using a physics-based tracking software. A generalized linear model with repeated measures and a logit link function was used to predict probability of penetration for each projectile. A total of 600 impacts were conducted to achieve at least 15 penetrating impacts for each projectile over a range of velocities. Results Higher impact velocities were required to penetrate the skin as sectional density of the projectile decreased, and the relationship between velocity and sectional density exhibited an exponential relationship (V50, $ = 184.6*S{D^{ - 0.385}}$, R2 = 0.95) with substantial change for nonlinearity in sectional densities ranging from 0.3 g cm−2 to 1  g cm−2. Compared to previous studies, the empirical relationship was consistent in the linear region (2-5  g cm−2), and novel experimentation filled in the gaps for sectional densities less than 1  g cm−2, which expressed more nonlinearity than previously estimated. For low-density projectiles with diameters of 1.59 (1/16”) or 3.18 (1/8”), 32 impacts were lodged into the epidermis but did not penetrate through the dermis; however, penetration was defined as displacement into or through the dermis. Conclusions These experimental results may be used to develop and validate finite element simulations of low-density projectile impacts to address complex, multivariate loading conditions for the development of protective clothing to reduce wounding and subsequent infection rates.

Funder

U.S. Army Combat Capabilities Development Command Soldier Center

Publisher

Oxford University Press (OUP)

Reference40 articles.

1. How Common Are Civilian Blast Injuries in the National Trauma Databank, and What Are the Most Common Mechanisms and Characteristics of Associated Injuries?;Nunziato,2021

2. Personnel safety with pressurized gas systems;Cadwallader;Process Saf Prog,2016

3. Improvised explosive devices: pathophysiology, injury profiles and current medical management;Ramasamy;J R Army Med Corps,2009

4. The injury mechanism of traumatic amputation;Rankin;Front Bioeng Biotechnol,2021

5. Wound Ballistics and Tissue Damage

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