This review article summaries the method to improve mechanical properties of nitramine composite solid propellants. It concludes that the use of bonding agents is an economical, effective and convenient way to enhance the mechanical properties of propellants. The bonding mechanism and characteristics of bonding agents are analyzed. The review article presents the overview on the types and development of bonding agents for nitramine composite solid propellants. It is considered that the multi-functionalization of polymer bonding agents is a development direction of bonding agents. According to the surface characteristics of nitramine fillers and the structure characteristics of different binders, a universal bonding agent suitable for different binder-nitramine systems should be prepared through molecular design. Some suggestions are put forward for the design of universal bonding agents.
Published in | International Journal of Astrophysics and Space Science (Volume 6, Issue 2) |
DOI | 10.11648/j.ijass.20180602.11 |
Page(s) | 44-50 |
Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
Copyright |
Copyright © The Author(s), 2018. Published by Science Publishing Group |
Composite Solid Propellant, Nitramine, Small Molecular Bonding Agent, Polymer Bonding Agent, Mechanical Property
[1] | Y. Chen, Y. Liu, L. Shi, W. Yang, and W. Yao (2015). Study on the Synthesis and Interfacial Interaction Performance of Novel Dodecylamine-based Bonding Agents Used of Composite Solid Propellants. Propellants, Explosives, pyrotechnics 40, 50-59. |
[2] | J. I. S. Oliveira, D. C. Pires, M. F. Diniz, J. L. Siqueira, E. C. Mattos, L. C. Rezende, K. Iha, and R. C. L. Dutra (2014). Determination of Primary Amine Content in Bonding Agent Used in Composite Solid Propellants. Propellants, Explosives, pyrotechnics 39, 538-544. |
[3] | J. K. Deng, X. Q. Wang, G. P. Li, and Y. J. Luo (2017). Effect of Bonding Agent on the Mechanical Properties of GAP High-Energy Propellant. Propellants Explosives Pyrotechnics 42, 394-400. |
[4] | A. A. Zenin, S. V. Finjakov, V. M. Puchkov, and N. G. Ibragimov (2015). Temperature and Pressure Sensitivities of Burning Wave Parameters of Nitramine-containing Propellants and HMX. Journal of Propulsion & Power 15, 753-758. |
[5] | J. Duterque, and G. Lengelle (2015). Combustion Mechanisms of Nitramine-based Propellants with Additives. Journal of Propulsion & Power 6, 718-726. |
[6] | T Naya, and M. Kohga (2015). Thermal Decomposition Behaviors and Burning Characteristics of AN/Nitramine-based Composite Propellant. Journal of Energetic Materials 33, 73-90. |
[7] | Y. Y. Yao, and J. Q. Zhang (2009). Research Progress of Polymer Bonding Agents for Nitramine Propellant. China Binders 18, 56-59. |
[8] | A. E. Oberth, and R. S. Bruenner. Polyurethane-based propellants. In: Edited by Robert F Gould. Advances in Chemistry Series 88-propellants Manufacture, Hazards and Testing. ACS Publication, 1969, pp. 84-121. |
[9] | W. D. Peng, C. H. Wang, and R. Zhang (1990). Application Research of Boride Bonding Agents in Nitramine Propellants. Journal of Solid Rocket Technology 13, 43-49. |
[10] | B. Zhang, Y. J. Luo, and H. M. Tan (2005). Interactional Mechanism of the Interface between CL-20 and Some Bonding Agents. Chinese Journal of Explosives & Propellants 28, 23-25. |
[11] | B. F. Pan, L. Zhang, Y. J. Luo, and H. M. Tan (2003). Study on Interaction between RDX and Dendritic Bonding Agent. Journal of Propulsion Technology 24, 470-473. |
[12] | G. Q. Bai, X. F. Li, and L. L. Chen (2006). Research Progress of Borate Ester Bonding Agents. Chemical Propellants & Polymeric Materials 4, 17-19. |
[13] | R. X. Cui, W. Zhang, and L. Chen (2012). Synthesis and Application of Borate Bonding Agents for AP/RDX/Al/HTPB Propellant. Journal of Solid Rocket Technology 35, 372-375. |
[14] | R. X. Cui, and W. Zhang (2012). Theoretical Investigation of the Structures of Borate Esters and Their Bonding Interaction with RDX. Chinese Journal of Energetic Materials 20, 459-464. |
[15] | R. X. Cui, W. Zhang, and J. R. Deng (2010). Mechanism of Boric-acid-ester Bonding Agent in AP/RDX/Al/HTPB Propellant. Journal of Propulsion Technology 31, 448-451. |
[16] | Y. B. Li, J. S. Li, H. Huang, and J. Wang (2010). Interaction between a Novel Borate Ester Bonding Agent and HMX. Chinese Journal of Explosives & Propellants 33, 36-39. |
[17] | H. J. Yu, J. Ma, D. P. Gao, B. H. Zheng, and P. Yang (2014). Synthesis and Hydrolysis Kinetics of a Five-membered Heterocyclic Borate Ester. Chinese Journal of Energetic Materials 22, 1-6. |
[18] | Z. Y. Wang, X. L. Zhang, and J. R. Deng (2016). Synthesis and Characterization of Series of Heterocyclic Chelating Borate Ester Bonding Agents. Journal of Solid Rocket Technology 39, 231-235. |
[19] | H. X. Li, J. R. Deng, and H. X. Tang (2000). Chelated Titanate Aids Used in Nitrate Plasticized Polyether Propellant. Journal of Propulsion Technology 21, 73-76. |
[20] | S. J. Monte (2002). The potential of titanate agents in solid rocket fuel systems. AD-P004454. |
[21] | M. J. Yi, M. Z. Yang, Y. Y. Zheng, and M. N. Zhang (1990). Application and Mechanism of Bonding Agent in Solid Propellant. Chinese Journal of Explosives & Propellants 1, 38-45. |
[22] | C. S. Kim, H. Youn, P. N. Noble, and A. Gao (1992). Development of neutral polymeric bonding agents for propellants with polar composites filled with organic nitramine crystals. Propellants Explosives Pyrotechnics 17, 38-42. |
[23] | Q. H. Zhao, R. G. Wu, Y. C. Cui, L. L. Wang, and Y. Ma (2012). Research Progress in Bonding Agents for Nitramine-based Propellant. Chemical Propellants & Polymeric Materials 10, 12-16. |
[24] | C. S. Kim, P. N. Noble, C. H. Youn, D. Tarrant, and A. Gao (1992). The mechanism of filler reinforcement from addition of neutral polymeric bonding agents to energetic polar propellants. Propellants Explosives Pyrotechnics 17, 51-58. |
[25] | L. J. Sun, S. J. Chang, X. Q. Yang, and X. Liu (2016). Research Progress of Neutral Polymeric Bonding Agent. Chemical Propellants & Polymeric Materials 14, 44-49. |
[26] | B. H. Wang (1995). Molecular Design and Synthesis of Neutral Polymeric Bonding Agent. Journal of Propulsion Technology 16, 71-76. |
[27] | B. H. Wang (1994). Molecular Design of Neutral Polymeric Bonding Agent for NEPE Propellants. Journal of Solid Rocket Technology 17, 47-53. |
[28] | X. L. Zhang, L. Zhang, and J. R. Deng (2013). Precision Synthesis Method of Neutral Polymeric Bonding Agent. Journal of Solid Rocket Technology 36, 368-370. |
[29] | L. Zhang, Y. L. Cao, Y. H. Lu, and X. P. Zhang (2014). Synthesis and Characterization of Block Neutral Polymeric Bonding Agent. New Chemical Materials 42, 85-87. |
[30] | L. Zhang, Q. Tang, Y. Wang, X. M. Yin, Y. X. Wang, X. Z. Pan, and W. Li (2017). Preliminary Application of Block Neutral Polymeric Bonding Agent in NEPE Propellant. Chemical Propellants & Polymeric Materials 15, 50-53. |
[31] | B. H. Wang (1994). Application of Neutral Polymeric Bonding Agents to NEPE Propellants. Journal of Solid Rocket Technology 17, 59-65. |
[32] | E. Landsem, T. L. Jensen, F. K. Hansen, E. Unneberg, and T. E. Kristenseri (2012). Neutral polymeric bonding agents (NPBA) and their use in smokeless composite rocket propellants based on HMX-GAP-BuNENA. Propellants Explosives Pyrotechnics 37, 581-591. |
[33] | L. L. Meng, W. X. Xie, H. J. Wei, X. H. Zhang, W. Zhang, and Y. D. Chen (2011). Influence of Bonding Agents on Mechanical Properties of Nitrate Plasticized BAMO-THF Propellants. Chemical Propellants & Polymeric Materials 9, 64-66. |
[34] | F. Gholamian, M. Ansari, M. Abdullah, F. Bataghva, and S. Ghariban-Lavasani (2013). Intermolecular interaction of a neutral polymeric bonding agent containing N-vinylpyrrolidone units with ammonium perchlorate and keto-RDX. Chinese Journal of Polymer Science 31, 1372-1381. |
[35] | W. S. Yao, W. H. Wu, J. W. Dai, and H. M. Tan (1995). The Characterization of Interfacial Bonding in Nitramine-Filled Propellants. Journal of Propulsion Technology 6, 57-62. |
[36] | Y. M. Wang, Q. H. Zhao, X. Y. Sun, and F. L. Tian (2008). The Synthesis of Several Macromolecule Bonding Agents and the Study on Their Properties. Journal of Inner Mongolia University of Science and Technology 27, 341-345. |
[37] | B. F. Pan, Y. J. Luo, and H. M. Tan (2004). Study on Interaction between AP and Dendritic Bonding Ageng. Energetic Materials 12, 6-9. |
[38] | B. F. Pan, Y. J. Luo, and H. M. Tan (2004). Interatcion between HMX and Dendritic Bonding Agent. Chinese Journal of Explosives & Propellants 27, 25-28. |
[39] | B. F. Pan, Y. J. Luo, W. S. Yao, and H. M. Tan (2004). Application of Dendrimer Bonding Agent in PET Test Pieces. Energetic Materials 12, 277-281. |
[40] | B. F. Pan, Y. J. Luo, and H. M. Tan (2004). Study on Interaction between CL-20 and Dendritic Bonding Agent. Energetic Materials 12, 199-202. |
APA Style
Xuan Liu, Xiaofei Sun, Xinlin Hong, Aimin Pang, Yingke Qiao. (2018). Research Progress of Bonding Agents for Nitramine Composite Solid Propellants. International Journal of Astrophysics and Space Science, 6(2), 44-50. https://doi.org/10.11648/j.ijass.20180602.11
ACS Style
Xuan Liu; Xiaofei Sun; Xinlin Hong; Aimin Pang; Yingke Qiao. Research Progress of Bonding Agents for Nitramine Composite Solid Propellants. Int. J. Astrophys. Space Sci. 2018, 6(2), 44-50. doi: 10.11648/j.ijass.20180602.11
AMA Style
Xuan Liu, Xiaofei Sun, Xinlin Hong, Aimin Pang, Yingke Qiao. Research Progress of Bonding Agents for Nitramine Composite Solid Propellants. Int J Astrophys Space Sci. 2018;6(2):44-50. doi: 10.11648/j.ijass.20180602.11
@article{10.11648/j.ijass.20180602.11, author = {Xuan Liu and Xiaofei Sun and Xinlin Hong and Aimin Pang and Yingke Qiao}, title = {Research Progress of Bonding Agents for Nitramine Composite Solid Propellants}, journal = {International Journal of Astrophysics and Space Science}, volume = {6}, number = {2}, pages = {44-50}, doi = {10.11648/j.ijass.20180602.11}, url = {https://doi.org/10.11648/j.ijass.20180602.11}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijass.20180602.11}, abstract = {This review article summaries the method to improve mechanical properties of nitramine composite solid propellants. It concludes that the use of bonding agents is an economical, effective and convenient way to enhance the mechanical properties of propellants. The bonding mechanism and characteristics of bonding agents are analyzed. The review article presents the overview on the types and development of bonding agents for nitramine composite solid propellants. It is considered that the multi-functionalization of polymer bonding agents is a development direction of bonding agents. According to the surface characteristics of nitramine fillers and the structure characteristics of different binders, a universal bonding agent suitable for different binder-nitramine systems should be prepared through molecular design. Some suggestions are put forward for the design of universal bonding agents.}, year = {2018} }
TY - JOUR T1 - Research Progress of Bonding Agents for Nitramine Composite Solid Propellants AU - Xuan Liu AU - Xiaofei Sun AU - Xinlin Hong AU - Aimin Pang AU - Yingke Qiao Y1 - 2018/07/06 PY - 2018 N1 - https://doi.org/10.11648/j.ijass.20180602.11 DO - 10.11648/j.ijass.20180602.11 T2 - International Journal of Astrophysics and Space Science JF - International Journal of Astrophysics and Space Science JO - International Journal of Astrophysics and Space Science SP - 44 EP - 50 PB - Science Publishing Group SN - 2376-7022 UR - https://doi.org/10.11648/j.ijass.20180602.11 AB - This review article summaries the method to improve mechanical properties of nitramine composite solid propellants. It concludes that the use of bonding agents is an economical, effective and convenient way to enhance the mechanical properties of propellants. The bonding mechanism and characteristics of bonding agents are analyzed. The review article presents the overview on the types and development of bonding agents for nitramine composite solid propellants. It is considered that the multi-functionalization of polymer bonding agents is a development direction of bonding agents. According to the surface characteristics of nitramine fillers and the structure characteristics of different binders, a universal bonding agent suitable for different binder-nitramine systems should be prepared through molecular design. Some suggestions are put forward for the design of universal bonding agents. VL - 6 IS - 2 ER -