Nanodiamonds characterization and application as a burning rate modifier for solid propellants

•Nanodiamond particles synthesized by detonation were studied in detail.•Combustion of solid propellants contained 10 wt. % of nanodiamond powder as a modifier was investigated.•The addition of the nanodiamond to propellants increased their burning rate up to 50 % on average. A nanodiamond powder (n...

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Bibliographic Details
Published in:Materials today communications 2021-06, Vol.27, p.102332, Article 102332
Main Authors: Sergienko, Alexey V., Solovieva, Kristina N., Balakhnina, Anastasia V., Petrov, Evgeniy A., Ozherelkov, Dmitriy Yu, Nalivaiko, Anton Yu, Gromov, Alexander A.
Format: Article
Language:English
Subjects:
Combustion
Materials characterization
Nanodiamond
Nanoparticles
Propellants
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Summary:•Nanodiamond particles synthesized by detonation were studied in detail.•Combustion of solid propellants contained 10 wt. % of nanodiamond powder as a modifier was investigated.•The addition of the nanodiamond to propellants increased their burning rate up to 50 % on average. A nanodiamond powder (n-D) synthesized by detonation method was characterized in detail, and the combustion of solid propellants contained 10 wt. % of n-D as a burning rate modifier was investigated. n-D characterization was implemented by XRD, SEM, DSC, and size distribution analyses. Specific surface area analysis was performed using BET-method. The size of primary nanodiamond particles has not changed after acid treatment and drying, but the particles' agglomeration decreased the value of a specific surface area. The effect of n-D modification on the burning rate of solid propellants with an active and inert binder was investigated. The addition of the n-D to propellants formulation instead of carbon black powder has significantly increased their burning rate (by at least 50 %) in the studied pressure range. The observed trend was associated with the high chemical reactivity of n-D and its extremely high value of specific surface area.
ISSN:2352-4928
2352-4928
DOI:10.1016/j.mtcomm.2021.102332