Basic Technologies for the Development of High Explosives

고폭화약 연구의 기술 분야

  • Kim, Hyoun-Soo (High Explosives Team, Agency for Defense Development)
  • 김현수 (국방과학연구소 고폭화약연구팀)
  • Received : 2006.08.18
  • Accepted : 2008.09.14
  • Published : 2006.10.31

Abstract

The objective of this paper is to provide fundamental information on the subject of high explosives not only to the explosive scientist but also to the chemical engineer. Technologies for the development of high explosives are divided into 5 areas: (1) synthesis of new energetics, (2) preparation of functional explosives, (3) formulation study of plastic bonded explosives, (4) application of high explosives to munitions, (5) demilitarization process. This paper outlines the basic technologies need to understand the high explosives.

이 논문은 화약연구 종사자는 물론 화학공학자들에게 고폭화약에 대한 기본적인 정보를 제공하는데 그 목적이 있다. 고폭화약 연구를 기술 분야별로 (1) 신규 에너지물질의 합성, (2) 기능성 화약 제조, (3) 복합화약 조성개발, (4) 무기체계 적용성 연구, (5) 군용 물질 해체 공정 등으로 대별하여, 고폭화약 연구의 이해를 위해 필요한 기본적인 기술분야에 대해 소개한다.

Keywords

Acknowledgement

Supported by : 방위사업청

References

  1. Dobratz, B. M. and Crawford, P. C. LLNL Explosive Handbook, LLNL, University of California(1985)
  2. Anderson, E., AIAA Tactical Missile Series Vol.155 Tactical Missile Warhead - Explosives, NSWC, USA(1993)
  3. Kim, H. S., Cho, S. G., Kim, J. K. and Song, S. Y., 'Molecular Design of Explosive Molecules : Nitroimidazole Derivatives,' Proc. ACS Meeting (57th SE/61st SW), Nov., Memphis, USA (2005)
  4. Cho, S. G., Kim, J. K., Song, S. Y., Lee, S. K. and No, K. T., 'Optimization of Neural Networks Architecture for Impact sensitivity of Energetic Molecules,' Proc. ACS Meeting (57th SE/ 61st SW), Nov., Memphis, USA(2005)
  5. Yongxu, Z., Dabin, L. and Chunxu, L., 'Preparation and Characterization of Reticular Nano-HMX,' Propellants, Explos., Pyrotech., 30(6), 438-441(2005) https://doi.org/10.1002/prep.200500038
  6. Kim, K. J., Kim, M. J., Lee, J. M., Kim, H. S. and Park, B. S., 'Control of Size and Shape of NTO Crystals by Cooling Crystallization,' Proc. Intern. Symp. CGOM, Aug., Breman, Germany, 169(1997)
  7. Lim, G. B., Lee, S. Y., Koo, K. K., Park, B. S. and Kim, H. S., 'Gas Anti-solvent Recrystallization of Molecular Explosives under Subcritical to Supercritical Conditions,' Proc. 5th Meeting Supercritical Fluids, March, Tome 1 Nice, 23-25(1998)
  8. Lim, G. B., Lee, S. Y., Koo, K. K., Park, B. S. and Kim, H. S., 'Size and Shape Control of Molecular Explosives Using SCF $CO_{2}$,' Proc. 11th Symp. Missile Tech., Daejon, Korea, 363-366(2001)
  9. Stepanov, V., Krasnoperov, L. N., Elkina, I. B. and Zhang, X., 'Production of Nanocrystalline RDX by Rapid Expansion of Supercritical Solutions,' Propellants, Exploives, Pyrotechnics, 30(3), 178-183(2005) https://doi.org/10.1002/prep.200500002
  10. Spyckerelle, 'Insensitive RDX,' Proc. 32nd Intern. Annual Conf. ICT, June, Karlsruhe, Germany(2001)
  11. Kim, H. S. and Park, B. S., 'Characteristics of the Insensitive Pressed Plastic Bonded Explosive,' Propellants, Exploives, Pyrotechnics., 24, 217-220(1999) https://doi.org/10.1002/(SICI)1521-4087(199908)24:4<217::AID-PREP217>3.0.CO;2-A
  12. MIL-STD-2105B, Hazard Assessment Tests for Non-Nuclear Munitions(1991)
  13. Kim, J. K. and Kim, S. H., 'Development of Insensitive High Explosive, DXD-09,' ADD report GWSD-419-90042(1999)
  14. Lee, J. M., Moon, D. C., Kim, G. L. and Cho, S. H., 'Application of Explosives to Ammunition,' Proc. KIChE 2006 Spring Meeting(Special Issue for Military Explosives Technology), 97- 108(2006)
  15. Park, B. S. and Ham, D. S., 'Demilitarization Technologies for Aging or Obsolete Munitions,' Proc. KIChE 2006 Spring Meeting( Special Issue for Military Explosives Technology), 109-120 (2006)
  16. Olszewski, B., 'MLRS Demilitarization Status Update,' Global Demil Symposium and Exhibition, Sparks, NV(2003)