Amy Pullen1, David C Kieser2, Gary Hooper2. 1. Department of Orthopaedic Surgery and Musculoskeletal Medicine, Christchurch School of Medicine, University of Otago, P O Box 4545, Christchurch, 8140, New Zealand. a.pullen@dta.mil.nz. 2. Department of Orthopaedic Surgery and Musculoskeletal Medicine, Christchurch School of Medicine, University of Otago, P O Box 4545, Christchurch, 8140, New Zealand.
Abstract
INTRODUCTION: Synthetic skin simulants are used both in wound ballistics and forensic investigations and should display similar mechanical properties to human tissue and therefore need to be validated. It is recognised that skin simulants may have a significantly different performance when different backing combinations are used; therefore, it is essential to specify and control the backing material. Roebuck 1518 synthetic chamois (RBK) backed by 20% ballistic gelatin has been validated as a suitable skin simulant; this study looks at validating the RBK simulant when backed by 10% ballistic gelatin. METHODS: Two layers of RBK synthetic chamois backed by calibrated 10% ballistic gelatin were placed onto the long face of the block and secured. Steel spheres with various sectional densities were fired using a custom-made gas gun to determine the V50 of the simulants and compared with the predicted V50. RESULTS: The results demonstrate that for a sectional density between 2.1 and 6.6 g/cm2, the skin simulants backed by 10% gelatin are within the 35% error bounds predicted by James' patent equation. All samples had a close fit to the regression line (R2 = 0.9738), and a Spearman rho test indicates that there is a "strong" negative correlation between sectional density and the V50 (Rs =- 0.957, p = 0.00). CONCLUSIONS: This validation study confirms that RBK synthetic simulant backed by 10% gelatin is a suitable skin simulant when testing non-deforming projectiles with sectional densities ranging from 2.1 to 6.6 g/cm2. A predictive trend line also indicates that the skin simulant is suitable for non-deforming projectiles with sectional densities ranging from 0.6 to 20 g/cm2 although this needs to be confirmed.
INTRODUCTION: Synthetic skin simulants are used both in wound ballistics and forensic investigations and should display similar mechanical properties to human tissue and therefore need to be validated. It is recognised that skin simulants may have a significantly different performance when different backing combinations are used; therefore, it is essential to specify and control the backing material. Roebuck 1518 synthetic chamois (RBK) backed by 20% ballistic gelatin has been validated as a suitable skin simulant; this study looks at validating the RBK simulant when backed by 10% ballistic gelatin. METHODS: Two layers of RBK synthetic chamois backed by calibrated 10% ballistic gelatin were placed onto the long face of the block and secured. Steel spheres with various sectional densities were fired using a custom-made gas gun to determine the V50 of the simulants and compared with the predicted V50. RESULTS: The results demonstrate that for a sectional density between 2.1 and 6.6 g/cm2, the skin simulants backed by 10% gelatin are within the 35% error bounds predicted by James' patent equation. All samples had a close fit to the regression line (R2 = 0.9738), and a Spearman rho test indicates that there is a "strong" negative correlation between sectional density and the V50 (Rs =- 0.957, p = 0.00). CONCLUSIONS: This validation study confirms that RBK synthetic simulant backed by 10% gelatin is a suitable skin simulant when testing non-deforming projectiles with sectional densities ranging from 2.1 to 6.6 g/cm2. A predictive trend line also indicates that the skin simulant is suitable for non-deforming projectiles with sectional densities ranging from 0.6 to 20 g/cm2 although this needs to be confirmed.
Authors: Kelly Whittle; Jules Kieser; Ionut Ichim; Michael Swain; Neil Waddell; Vicki Livingstone; Michael Taylor Journal: Forensic Sci Med Pathol Date: 2007-08-15 Impact factor: 2.007