Explosive characteristics of aluminized HMX-based nanocomposites

Combustion, Explosion and Shock Waves

Volumn 44, Issue 2, 2008, Pages 198-212

  Gogulya, M F ^a   Makhov, M N ^a   Brazhnikov, M A ^a   Dolgoborodov, A Yu ^a   Arkhipov, V I ^a   Zhigach, A N ^a   Leipunskii, I O ^a   Kuskov, M L ^a  

^a SEMENOV INSTITUTE OF CHEMICAL PHYSICS   (Russian Federation)

Author keywords

Composite; Detonation velocity; Heat of explosion; HMX; Nanoaluminum; Pressure; Propellant performance; Temperature

Indexed keywords

DETONATION VELOCITY; HEAT OF EXPLOSION; PEAK PRESSURES; PROPELLANT PERFORMANCE;

ALUMINUM COMPOUNDS; ALUMINUM POWDER METALLURGY; COMPOSITE MATERIALS; DETONATION; PARTICLE SIZE;

NANOCOMPOSITES;

EID: 42449143941     PISSN: 00105082     EISSN: 15738345     Source Type: Journal    
DOI: 10.1007/s10573-008-0027-8     Document Type: Article

References (26)

1. M. Finger, H. C. Hornig, E. L. Lee, and J. W. Kury, "Metal acceleration by composite explosives," in: Proc. 5th Symp. (Int.) on Detonation, Annapolis, ONR, ACR-184 (1970), pp. 55-63.
2. V. I. Arkhipov, M. N. Makhov, and V. I. Pepekin, "Detonation of composite explosive systems of the oxidizer-fuel type," Khim. Fiz., 12, No. 12, 1640-1643 (1993).
3. M. F. Gogulya, M. A. Brazhnikov, A. Yu. Dolgoborodov, M. N. Makhov, I. O. Leipunskii, A. N. Zhigach, N. G. Berezkina, P. A. Pshechenkov, and M. L. Kuskov, "Structure of aluminized explosives and its influence on detonation parameters," in: A. L. Mikhailov (ed.), Extreme States of Matter. Detonation. Shock Waves, Proc. Int. Conf. III Thematic Khariton Readings, Inst. of Exp. Physics (VNIIEF), Russian Federal Nuclear Center, Sarov (2002), pp. 20-25.
4. M. F. Gogulya, M. N. Makhov, A. Yu. Dolgoborodov, M. A. Brazhnikov, V. I. Arkhipov, V. G. Shchetinin, "Mechanical sensitivity and detonation parameters of aluminized explosives," Combust., Expl., Shock Waves, 40, No. 4, 445-457 (2004).
5. M. N. Makhov, M. F. Gogulya, A. Yu. Dolgoborodov, M. A. Brazhnikov, V. I. Arkhipov, V. I. Pepekin, "Acceleration ability and heat of explosive decomposition of aluminized explosives," Combust., Expl., Shock Waves, 40, No. 4. 458-466 (2004).
6. M. Ya. Gen and A. V. Miller, "Method of producing metal aerosols," USSR Author's Certificate No. 814432, 23.03.81, Byull. 11.
7. A. N. Zhigach, I. O. Leipunskii, M. L. Kuskov, N. I. Stoenko, and V. B. Storozhev, "Facility for producing and studying the physicochemical properties of metal nanoparticles," Prib. Tekh. Éksp., 43, No. 6, 122-129 (2000).
8. A. N. Zhigach, I. O. Leipunskii, M. L. Kuskov, P. A. Pshechenkov, N. G. Berezkina, M. N. Larichev, and V. G. Kraskovskii, "Synthesis of coats on the surface of ultrafine aluminum particles," Khim. Fiz., 21, No. 4, 72-78 (2002).
9. A. N. Streletskii, I. V. Kolbanev, A. B. Borunova, A. V. Leonov, and P. I. Butyagin, "Mechanochemical activation of aluminum. 1. Joint grinding of aluminum with graphite," Kolloidn. Zh., 66, No. 6, 811-818 (2004).
10. A. N. Jigatch, I. O. Leipunsky, M. L. Kuskov, P. A. Krasovsky, and M. F. Gogulya, "A technique to prepare aluminized nanosized explosives," in: Proc. of the Twenty-Ninth Int. Pyrotechnics Seminar, F. J. Schelling (ed.), IPSUSA, Inc. (2002), pp. 583-589.
11. I. O. Leipunskii, A. N. Zhigach, M. L. Kuskov, P. A. Pshechenkov, M. N. Larichev, M. F. Gogulya, and V. A. Teselkin, "Aluminized explosive nanocomposite: Production and properties," in: Substances, Materials, and Structures under Intense Dynamic Actions., Proc. V Int. Conf. Thematic Khariton Readings, Inst. of Exp. Physics, Russian Federal Nuclear Center, Sarov (2003), pp. 219-223.
12. A. N. Jigatch, I. O. Leipunsky, M. L. Kuskov, P. A. Pshechenkov, M. N. Larichev, V. A. Teselkin, and M. F. Gogulya, "Aluminized nanostructured energetic material - preparation and study," in: Novel Energetic Materials and Applications, Proc. of the Ninth Int. Workshop on Combustion and Propulsion, Lerici, Italy (2004), pp. 13/1-13/12.
13. M. F. Gogulya, M. N. Makhov, A. Yu. Dolgoborodov, M. A. Brazhnikov, I. O. Leipunsky, A. N. Jigatch, M. L. Kuskov, and M. N. Laritchev, "Aluminised nanocomposites based on HMX," in: Energetic Materials, Structure and Properties, 36th Int. Annu. Conf. of ICT and 32nd Int. Pyrotechnics Seminar, Karlsruhe (2005), pp. 65/1-65/11.
14. M. F. Gogulya, M. N. Makhov, A. Yu. Dolgoborodov, M. A. Brazhnikov, I. O. Leipunskii, A. N. Zhigach, M. L. Kuskov, and M. N. Larichev, "Nanocomposites based on HMX and aluminum. Production and detonation properties," in: Mikhailov (ed.), Extreme States of Matter. Detonation. Shock Waves, Proc. Int. Conf. VII Thematic Khariton Readings, Inst. of Exp. Phys., Russian Federal Nuclear Center, Sarov (2005), pp. 33-38.
15. V. G. Shchetinin, V. A. Teselkin, A. N. Zhigach, et al., "Effect of the structure and physicochemical properties of the surface of aluminum particles on the sensitivity of explosive compositions," in: A. L. Mikhailov (ed.), Extreme States of Matter. Detonation. Shock Waves, Proc. Int. Conf. III Thematic Khariton Readings, Inst. of Exp. Phys., Russian Federal Nuclear Center, Sarov (2002), pp. 34-38.
16. V. A. Teselkin, "Mechanical sensitivity of metallized explosive nanocomposites," in: Energetic Materials, Structure and Properties, 36th Int. Annu. Conf. of ICT and 32nd Int. Pyrotechnics Seminar, Karlsruhe (2005), pp. 81/1-81/11.
17. V. A. Teselkin, "Mechanical sensitivity nanostructural explosive materials," in: A. L. Mikhailov (ed.), Extreme States of Matter. Detonation. Shock Waves, Proc. Int. Conf. VII Thematic Khariton Readings, Inst. of Exp. Phys., Russian Federal Nuclear Center, Sarov (2005), pp. 61-67.
18. V. G. Shchetinin, "Estimation of the mechanical sensitivity of solid explosives by the disintegration-shell method," Combust., Expl., Shock Waves, 35, No. 5, 570-575 (1999).
19. M. F. Gogulya and A. Yu. Dolgoborodov, "Indicator method for studying shock and detonation waves," Khim. Fiz., 13, No. 12, 118-127 (1994).
20. M. F. Gogulya, A. Yu. Dolgoborodov, and M. A. Brazhnikov, "Subtle structure of detonation waves in mixtures of HMX with aluminum," Khim. Fiz., 17, No. 1, 41-44 (1998).
21. M. N. Makhov, "Method of estimating the heat of explosion of aluminized explosives," in: A. L. Mikhailov (ed.), Extreme States of Matter. Detonation. Shock Waves, Proc. Int. Conf. VII Thematic Khariton Readings, Inst. of Exp. Phys., Russian Federal Nuclear Center, Sarov (2005), pp. 53-58.
22. M. N. Makhov, "Heat of explosive decomposition of aluminized explosives," Khim. Fiz., 19, No. 9, 83-87 (2000).
23. M. N. Makhov, "The effect of charge density on the explosion heat of high explosives," in: Proc. of the 33rd Int. Annu. Conf. of ICT, Karlsruhe (2002), pp. 73/1-73/13.
24. M. N. Makhov, "Explosion heat and metal acceleration ability of high explosives," in: Proc. of 32nd Int. Conf. Annu. of ICT, Karlsruhe (2001), pp. 97/1-97/11.
25. N. A. Imkhovik, "Effect of additives of ultrafine metals on the flow structure and propagation regime of detonation waves in composite explosives," Khim. Fiz., 24, No. 11, 3-10 (2005).
26. L. P. Orlenko (ed.), Physics of Explosion [in Russian], Vol. 1, Fizmatlit, Moscow (2002).