Journal of the Korean Society of Safety (한국안전학회지)

The Korean Society of Safety (한국안전학회)
권호 표지
DOI QR코드

DOI QR Code

A Study of the Human Body Safety and Effectiveness for Scattering Objects on Missile Ejection Round

유도탄 사출시 비산물로 인한 인체 안전과 영향성에 관한 연구

  • Received : 2014.05.17
  • Accepted : 2014.07.16
  • Published : 2014.08.31
Download PDF
⟨ Previous Next ⟩

Abstract

The purpose of this study is to assess for scattering object for the missile ejection round due to analysis of the human body effectiveness safely. To achieve this goal the measurement method of scattering objects by comparative 2 measurement methods studied, the risk of scattering of the object is evaluated. Result of this study, applied in Europe and Japan, based on the safety criteria for the human body effectiveness when missile ejection round. data showed is not effectiveness to the operator's body safely. Data showed that satisfies the safety criteria for missile ejection round in Europe and Japan through the similarity for the case studies. In case of these safety criteria does not exist regulation in South Korea, this study will be referred as guidelines are considered.

Keywords

References

  1. A. B. Cynthia, J. S. Shelby and W. Marianne, "Skin Penetration Assessment of Less Lethal Kinetic Energy Munitions", J. Forensic Sci, Vol. 50, No. 6, 2005.
  2. S. B. Segletes, "Modeling the Penetration Behavior of Rigid into Ballstic Gelatin", ARL_TR_4393, Army Research Laboratory, Aberdeen Proving Ground, MD 21005-5069, pp.1-36, 2000.
  3. L. M. Sturdivan, "A mathematical Model of Penetration of Chunky Projectiles in a Gelatin Tissue Simulation", U.S Army ARDEC Picatinny Arsenal NJ report in progress, 2000.
  4. I. Sheldon, "Analyzing Viscoelastic Material", Ansys Advantage, Vol, 2, pp.45-47, 2008.
  5. V. J. M. DiMaio, "Penetration and Perforation of Skin by Bullets and Missiles. A Review of the literature", Am J Forensic Med Pathol Vol. 2, No. 2, pp.107-110, 1981. https://doi.org/10.1097/00000433-198106000-00003
  6. D. C. Cronin, "Material Properties for Numerical Simulations for Human, Ballistic Soap and Gelatin," Defence R&D Canada-Valcartier, pp.21-23, 2012.
  7. D. Traian, "Doppler Processing with Ultra-wideband Impulse Radar", ARL-TN-0529, Army Research Laboratory Adelphi, MD 20783-1197, pp.1-28, 2013.
  8. FLIR Web http://www.flir.com
  9. F. Andrew, "The Army's Ground Combat Vehicle (GCV) Program: Background and Issues for Congress", US Congressional Research Service, CRS Report for Congress, R41597, pp.14-15, 2013.
  10. H. Shekarforoush and R. Chellappa, "A Multi-Fractal Formalism for Stabilization, Object Detection and Tracking in Flir Sequences", IEEE International Conference on Image Processing (ICIP), pp.78-81, 2000.
  11. Y. Q. Sun, J. W. Lian and J. L. Tian, "Novel Method on Dual-band Infrared Image Fusion for Dim Small Target Detection", Opt. Eng., Vol. 46, 2007.
  12. R. Cyril, N. Nestor, P. Alexandre and O. Amar, "Practical Considerations for using High-speed Camera to Measure the Dynamic Deformation During Impact of a Kinetic Energy Non-lethal Projectile on a Ballistic Simulant", Proceedings of PASS Conference, Fourth Germany, 2012.
  13. P. Alexandre, R. Cyril, N. Nestor, O. Amar and G. Julien, "Definition of a Standardized Skin Penetration Surrogate for Blunt Impacts", IRCOBI Conference, pp.486-493, 2012.