NS3E Laboratory – UMR 3208 (ISL-CNRS-UNISTRA), French-German Research Institute of Saint-Louis, BP 70034, 68301 Saint Louis Cedex, France
Marc Comet
Corresponding author.; NS3E Laboratory – UMR 3208 (ISL-CNRS-UNISTRA), French-German Research Institute of Saint-Louis, BP 70034, 68301 Saint Louis Cedex, France
Bastien Lallemand
NS3E Laboratory – UMR 3208 (ISL-CNRS-UNISTRA), French-German Research Institute of Saint-Louis, BP 70034, 68301 Saint Louis Cedex, France
Maxence Vince
NS3E Laboratory – UMR 3208 (ISL-CNRS-UNISTRA), French-German Research Institute of Saint-Louis, BP 70034, 68301 Saint Louis Cedex, France
Anna K. Ott
NS3E Laboratory – UMR 3208 (ISL-CNRS-UNISTRA), French-German Research Institute of Saint-Louis, BP 70034, 68301 Saint Louis Cedex, France
Fabien Schnell
NS3E Laboratory – UMR 3208 (ISL-CNRS-UNISTRA), French-German Research Institute of Saint-Louis, BP 70034, 68301 Saint Louis Cedex, France
Benjamin Bonnet
NS3E Laboratory – UMR 3208 (ISL-CNRS-UNISTRA), French-German Research Institute of Saint-Louis, BP 70034, 68301 Saint Louis Cedex, France
Denis Spitzer
NS3E Laboratory – UMR 3208 (ISL-CNRS-UNISTRA), French-German Research Institute of Saint-Louis, BP 70034, 68301 Saint Louis Cedex, France
Melamine (Mel) was used as host matrix for liquid nitroglycerin (NG), to prepare Mel/NG solid powdered compounds containing up to 45 wt% of this explosive. The two preparation processes used for this purpose consisted in evaporating a solution of both components, either in ambient conditions or under reduced pressure by the Spray Flash-Evaporation (SFE) process. In Mel/NG materials, amorphous nitroglycerin is distributed in the crystallized melamine matrix as inclusions, which were found to be smaller in size in the material prepared by the SFE process. Mel/NG materials are not stable over time: they gradually lose the nitroglycerin they contain by evaporation.
