AP assembled on ultrafine aluminum particle and its application to NEPE propellant

Huixin Wang, Qiang Li, Hui Ren*, Liangjun Xie, Tingting Liu, Zhihong Chen

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

1 Citation (Scopus)

Abstract

Coating modification is an important way to enhance the reactivity of aluminum powder. In this paper, ammonium perchlorate and aluminum powder were assembled into energetic microunits by liquid deposition method. Spherical particles with AP as shell and ultrafine aluminum powder as the core (Al@AP) were gained. The micromorphology results show that the coated particles are about 5 μm, and the coating layer is evenly distributed on the outer surface of aluminum powder, indicating a complete coating. The energetic microunits were implanted into the nitrate ester plasticizing adhesive system (NEPE) as solid phase fillers. The effect of filler on the rheological properties, safety, mechanical properties, thermal reaction and energy properties of the system was analyzed by comparing with the raw aluminum filler. The test results show that the rheological properties, mechanical properties and pressure index of NEPE containing system Al@AP meets the requirements of solid propellant charging. Compared with Al based propellant, the mechanical sensitivity and thermal sensitivity are decreased, the safety is better, and the explosion heat of the propellant is increased by 7.8%. The engine test shows that the specific impulse is increased by 1.2 s. Al@AP can improve the energy output and safety of NEPE propellant, and has potential application prospects in high-energy propellants.

Original languageEnglish
JournalDefence Technology
DOIs
Publication statusAccepted/In press - 2023

Keywords

  • Aluminum powder
  • Applied research
  • Coating
  • Energy output
  • NEPE propellant

Fingerprint

Dive into the research topics of 'AP assembled on ultrafine aluminum particle and its application to NEPE propellant'. Together they form a unique fingerprint.

Cite this