Woods, Hannah; Boddorff, Andrew; Ewaldz, Elena; Adams, Zachary; Ketcham, Mitchell; Jang, Dong June; Sinner, Elizabeth; Thadhani, Naresh; Brettmann, Blair published an article in 2020, the title of the article was Rheological Considerations for Binder Development in Direct Ink Writing of Energetic Materials.Synthetic Route of 2358-84-1 And the article contains the following content:
A review. Additive manufacturing is a promising approach to prepare highly specifically defined materials with unique dimensions, gradients in material attributes and on-demand properties. For energetic materials applications, it is particularly exciting for its potential to create lattice and cellular structures and gradient solids to focus or dissipate energy. However, there are significant challenges to overcome, particularly in obtaining the very high particle content (>80 vol % particles), while still being manufacturable. This work focuses on the polymer binder used in an energetic materials system and aims to understand how its characteristics affect the viscosity and printability of the suspension. Two different types of polymer binders are examined: (a) high mol. weight polymer in a solvent and (b) polymerizable smaller mols. that were cured via UV light. We show that the suspension viscosity is primarily controlled by the particle volume fraction for the UV curable binder, while both the particle volume fraction and polymer mol. weight influence the response in the case of the polymer/solvent binder. Both binder types can be tuned to provide printable suspensions that result in lines of consistent width and 3D disk-shaped objects, indicating that both paths are good potential directions for future formulations for polymer bonded explosives prepared via additive manufacturing The experimental process involved the reaction of Oxybis(ethane-2,1-diyl) bis(2-methylacrylate)(cas: 2358-84-1).Synthetic Route of 2358-84-1
The Article related to polymer binder suspension viscosity printability explosive formulation review, Propellants and Explosives: Reviews and other aspects.Synthetic Route of 2358-84-1
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