Preparation-of-ammonium-nitrate-based-solid-composite-propellant_2022_Defenc
Preparation-of-ammonium-nitrate-based-solid-composite-propellant_2022_Defenc
Date
2022-11-05
Authors
Sabri Touidjine
Moulai Karim Boulkadid
Djalal Trache
Samir Belkhiri
Journal Title
Journal ISSN
Volume Title
Publisher
ScienceDirect
Abstract
To improve the performance of solid composite propellants (SCPs) supplemented with ammonium ni-
trate (AN) as an oxidizer, the incorporation of energetic ingredients such as explosives, energetic binders
or catalysts is a common effective approach. For this purpose, polyurethane (PU), a typical inert binder,
was mixed with nitrocellulose (NC) as an energetic polymer. Numerous composite solid propellant
compositions based on AN and NC-modified polyurethane binder with different NC ratios were prepared.
The prepared formulations were characterized using Fourier transform infrared spectroscopy (FTIR),
RAMAN spectroscopy, X-ray diffraction (XRD), electron densimetry, thermogravimetric (TG) analysis, and
differential scanning calorimetry (DSC). A kinetic study was then performed using the iterative Kissinger-
Akahira-Sunose (It-KAS), Flynn-Wall-Ozawa (It-FWO), and non-linear Vyazovkin integral with
compensation effect (VYA/CE) methods. The theoretical performances, such as theoretical specific im-
pulse, adiabatic flame temperature, and ideal exhaust gaseous species, were also determined using the
NASA Lewis Code, Chemical Equilibrium with Application (CEA). Spectroscopic examinations revealed
the existence of NC and full polymerization of PU in the prepared propellants. According to density tests,
the density of the propellant increases as the nitrocellulose component increases. According to the
thermal analysis and kinetics study, the increase in NC content catalyzed the thermal decomposition of
the AN-based composite solid propellants. Based on the theoretical study, increasing the amount of NC in
the propellant increased the specific impulse and, as a result, the overall performance.