Add to ORKGA key-technique for the research of energetic materials is scanning electron microscopy. In this paper several examples are given of characterization studies on energetic materials, including a solid composite propellant formulation. Results of the characterization of energetic materials using scanning electron microscopy comprise the visualization of internal defects in energetic RDX crystals and in-situ tensile tests of an AP/Al/HTPB propellant. The results show that scanning electron microscopy is a robust and flexible characterization technique in the area of energetic materials
Few products take several years of research effort to be synthesize yet disintegrate in scarcely mil...
The quality and internal microstructure of crystals have a great influence on the sensitivity of ene...
PING Junior 2019 is organized with the support of funds for specific university research project SVK...
Three batches of the commercial energetic material RDX, as received from various production location...
The failure mechanism of a propellant consisting of hydroxyl terminated poly-butadiene filled with a...
A tensile module system placed within a FEI NovaNanoSEM 650 Scanning Electron Microscope (SEM) was u...
The product quality of energetic materials is predominantly determined by the crystallization proces...
A variety of intermolecular interactions occurs when an energetic material responds to its surroundi...
The studies on the physico-mechanical properties of commonly used energetic materials (EMs) that wer...
The application of energetic matelials, like explosives and oxidizers, in munition or propellants, r...
International audienceIn previous work, impact experiments were performed at ISL on three energetic ...
The unique properties of nanomaterials have made them potential candidates in energy applications. D...
The main aspects of material research: material synthesis, material structure, and material properti...
We review the use of transmission electron microscopy (TEM) and associated techniques for the analys...
The dislocation mechanics based properties of solid energetic materials, particularly, of high explo...
Few products take several years of research effort to be synthesize yet disintegrate in scarcely mil...
The quality and internal microstructure of crystals have a great influence on the sensitivity of ene...
PING Junior 2019 is organized with the support of funds for specific university research project SVK...
Three batches of the commercial energetic material RDX, as received from various production location...
The failure mechanism of a propellant consisting of hydroxyl terminated poly-butadiene filled with a...
A tensile module system placed within a FEI NovaNanoSEM 650 Scanning Electron Microscope (SEM) was u...
The product quality of energetic materials is predominantly determined by the crystallization proces...
A variety of intermolecular interactions occurs when an energetic material responds to its surroundi...
The studies on the physico-mechanical properties of commonly used energetic materials (EMs) that wer...
The application of energetic matelials, like explosives and oxidizers, in munition or propellants, r...
International audienceIn previous work, impact experiments were performed at ISL on three energetic ...
The unique properties of nanomaterials have made them potential candidates in energy applications. D...
The main aspects of material research: material synthesis, material structure, and material properti...
We review the use of transmission electron microscopy (TEM) and associated techniques for the analys...
The dislocation mechanics based properties of solid energetic materials, particularly, of high explo...
Few products take several years of research effort to be synthesize yet disintegrate in scarcely mil...
The quality and internal microstructure of crystals have a great influence on the sensitivity of ene...
PING Junior 2019 is organized with the support of funds for specific university research project SVK...