Nanocrystallisation of Ammonium DiNitramide (ADN) by Spray Flash Evaporation (SFE)

Ammonium DiNitramide (ADN) is an interesting oxidizer to replace ammonium perchlorate in the composition of solid propellants. In this study, Spray Flash Evaporation (SFE) is presented as a new technology to enhance stability of ADN by crystallization of nanoparticles. The crystallinity and purity o...

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Published in	Propellants, explosives, pyrotechnics Vol. 43; no. 6; pp. 609 - 615
Main Authors	Berthe, Jean‐Edouard, Schnell, Fabien, Boehrer, Yannick, Spitzer, Denis
Format	Journal Article
Language	English
Published	Weinheim Wiley Subscription Services, Inc 01.06.2018 Wiley-VCH Verlag
Subjects	Ammonium Dinitramide Chemical engineering Chemical Sciences Crystallization Desensitization Detonation Downsizing Ethyl acetate Evaporation Moisture absorption nano-crystallization New technology Relative humidity sensitivity Solid propellants Spray Flash Evaporation X-ray diffraction
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Abstract	Ammonium DiNitramide (ADN) is an interesting oxidizer to replace ammonium perchlorate in the composition of solid propellants. In this study, Spray Flash Evaporation (SFE) is presented as a new technology to enhance stability of ADN by crystallization of nanoparticles. The crystallinity and purity of the compound was confirmed by X‐Ray Diffraction and Raman analysis. An average diameter of spherical particles around 32 nm (solution of ethyl acetate) and 34 nm (solution of methyl acetate) was measured by Scanning Electronic Microscopy (SEM). Furthermore, the downsizing to nanoscale induces a slower moisture absorption kinetic under 55 % of relative humidity, a reduction of the critical diameter of detonation and the desensitization to impact.
AbstractList	Ammonium DiNitramide (ADN) is an interesting oxidizer to replace ammonium perchlorate in the composition of solid propellants. In this study, Spray Flash Evaporation (SFE) is presented as a new technology to enhance stability of ADN by crystallization of nanoparticles. The crystallinity and purity of the compound was confirmed by X‐Ray Diffraction and Raman analysis. An average diameter of spherical particles around 32 nm (solution of ethyl acetate) and 34 nm (solution of methyl acetate) was measured by Scanning Electronic Microscopy (SEM). Furthermore, the downsizing to nanoscale induces a slower moisture absorption kinetic under 55 % of relative humidity, a reduction of the critical diameter of detonation and the desensitization to impact. Abstract Ammonium DiNitramide (ADN) is an interesting oxidizer to replace ammonium perchlorate in the composition of solid propellants. In this study, Spray Flash Evaporation (SFE) is presented as a new technology to enhance stability of ADN by crystallization of nanoparticles. The crystallinity and purity of the compound was confirmed by X‐Ray Diffraction and Raman analysis. An average diameter of spherical particles around 32 nm (solution of ethyl acetate) and 34 nm (solution of methyl acetate) was measured by Scanning Electronic Microscopy (SEM). Furthermore, the downsizing to nanoscale induces a slower moisture absorption kinetic under 55 % of relative humidity, a reduction of the critical diameter of detonation and the desensitization to impact.
Author	Boehrer, Yannick Berthe, Jean‐Edouard Spitzer, Denis Schnell, Fabien
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Snippet	Ammonium DiNitramide (ADN) is an interesting oxidizer to replace ammonium perchlorate in the composition of solid propellants. In this study, Spray Flash... Abstract Ammonium DiNitramide (ADN) is an interesting oxidizer to replace ammonium perchlorate in the composition of solid propellants. In this study, Spray...
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SubjectTerms	Ammonium Dinitramide Chemical engineering Chemical Sciences Crystallization Desensitization Detonation Downsizing Ethyl acetate Evaporation Moisture absorption nano-crystallization New technology Relative humidity sensitivity Solid propellants Spray Flash Evaporation X-ray diffraction
Title	Nanocrystallisation of Ammonium DiNitramide (ADN) by Spray Flash Evaporation (SFE)
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