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Pyrotechnics Energetic material Propellant Explosive material Nanotechnology Materials science Aerospace engineering Mechanical engineering Engineering Chemistry Organic chemistry

Tanja Pietraß , David Teter , Karen Kippen ·

YOU? · · 2018 · Open Access · · DOI: https://doi.org/10.2172/1425777 · OA: W4241745380

Energetic materials comprise explosives, pyrotechnics, and propellants. The science of energetic materials is dedicated to developing means to predict performance and safety characteristics with high fidelity. This is a particular challenge and is predicated on materials science and engineering, physics, chemistry, and dynamic response in extreme conditions. Fundamental elements of these complicated composite materials remain grand challenges—from the design of high-energy metastable molecules, to the engineering of composite formulations, to the processing parameters that link to safety and performance characteristics in as-yet undetermined ways. Key elements include crystalline mechanics, grain dynamics, multiphase interfaces, thermal and mechanical damage, and failure—all linked to multistep and high-rate chemistry and shock physics. A future revolution in our understanding and predictive capability for energetic materials behavior and responses is dependent upon sustained focus and advances in materials research and development.