Preparation and Characterization of Polyurethane/Nitrocellulose Blends as Binder for Composite Solid Propellants

Abstract: Polyurethane (PU) elastomers are largely used in the field of high-energy composites such as composite solid propellants (CSPs) and high-energy polymer-bonded explosives (PBXs) due to their distinguished characteristics. Conventional PU binders are mostly non-energetic materials, and consequently reduce the energy performance significantly. Nitrocellulose (NC), is an energetic polymer widely used as an ingredient in propellants, explosives, fireworks, and gas generators, may be introduced in PUbased compositio… Show more

“…Touidjine et al . prepared polyurethane/NC blends and further proved their suitable application as solid propellants 19 . With this motivation, we selected NC for polymer blending with the PVC system.…”

Study of the preparation and properties of polyvinyl chloride/nitrocellulose polymer blends

“…Touidjine et al . prepared polyurethane/NC blends and further proved their suitable application as solid propellants 19 . With this motivation, we selected NC for polymer blending with the PVC system.…”

Study of the preparation and properties of polyvinyl chloride/nitrocellulose polymer blends

“…For energetic materials with gasphase products, TG/FTIR technologies are used to synchronously analyze the gas produced in the decomposition process, so as to explain the decomposition mechanism and the relationship between components. [37][38][39] Therefore, DSC and TG-FTIR techniques were used to analyze the effect of BMEP-1 and BMEP-2 on the thermal decomposition behavior of AP. The results showed that BMEP-1 and BMEP-2 were two heatresistant and insensitive energetic complexes with excellent catalytic effects on the thermal decomposition of AP.…”

Energetic bimetallic complexes as catalysts affect the thermal decomposition of ammonium perchlorate

“…However, research has been carried out to increase the thermal decomposition performance of NTO by use of additives such as metal oxides that form co-crystals with other HEMs such as HNTO/AN, preparing nanosized particles of HEMs, and the use of polymers coordinated with graphene oxide (GO)-functionalized catalysts that can directly impart a great influence in the burning and combustion performance of chemical propulsion systems. [29][30][31][32][33][34][35] To gain increased insight into the effect of the nano-size of catalysts, the synthesis and properties of various catalysts such as metal oxides, 23 metals, 24 ferrites, 25 and mixed metal ferrites 26 have been deeply studied to mainly ascertain how they affect the thermal decomposition of NTO. These are helpful to identify ferrite synthesis that can occur on a laboratory scale, with low cost and reproducible processes, and does not require specialized equipment systems.…”

“…In this study, the synthesis, characterization, and thermal decomposition of NTO and nNTO with and without catalyst metal ferrite CuFe 2 O 4 are briefly discussed, of which very little work has been previously reported. [32][33][34][35][36][37][38][39] 2. Experimental…”

Effect of copper ferrite (CuFe₂O₄) in the thermal decomposition of modified nitrotriazolone