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Shock dynamics in periodic two-dimensional composites

Recently developed hybrid additive manufacturing techniques can create architectured composites where the constituents are patterned in a periodic array, with a characteristic length scale on the order of several hundred microns. This control over mesostructure can be used to fabricate materials wit...

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Main Authors:	Poole, Lauren L., Gonzales, Manny, Moustafa, Abdel R., Gerlt, Austin R. C., Cordero, Zachary C.
Format:	Conference Proceeding
Language:	English
Subjects:	Compression tests Longitudinal waves Shielding Two dimensional composites Wave scattering
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creator	Poole, Lauren L. Gonzales, Manny Moustafa, Abdel R. Gerlt, Austin R. C. Cordero, Zachary C.
description	Recently developed hybrid additive manufacturing techniques can create architectured composites where the constituents are patterned in a periodic array, with a characteristic length scale on the order of several hundred microns. This control over mesostructure can be used to fabricate materials with precisely controlled shock dynamics tailored for a specific response e.g., shielding, munition casing, etc. In the present work, we use hydrocode simulations to determine the structure of planar impacts in periodic two-dimensional composites and to assess their ability to dissipate shock compression. Additionally, localized, geometry-induced wave scattering is related to the bulk dispersive properties of the material.
doi_str_mv	10.1063/12.0000838
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subjects	Compression tests Longitudinal waves Shielding Two dimensional composites Wave scattering
title	Shock dynamics in periodic two-dimensional composites
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