Shashank Vummidi Lakshman scite author profile

3D printing of reactive materials has, to date, primarily focused on controlling reaction velocities and energy release rates by printing novel architectures, which during reaction typically form gaseous and oxide powder products. The utility of printed reactive materials can be increased by designing the material such that its reaction produces both a controlled energy release and a functional product phase without gaseous products. Here, we report the direct ink writing of reactive materials composed of ternary nanocomposite powders that exhibit gasless, exceptionally low velocity reactions. The printed features can be patterned in arbitrary form factors and are brittle and electrically insulating as‐printed. Using a self‐propagating synthesis reaction, these features can be transformed into a mechanically robust, electrically conductive cermet that is capable of handling high currents. This study provides a new paradigm for printing multifunctional reactive materials in which both the energy release of the reaction, as well as the reaction products themselves, are useful for potential applications ranging from printed electronic devices to controlled, directed energy release.

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Combustion of explosively dispersed Al-Mg-Zr composite particles

Stamatis

Wainwright

Lakshman

et al. 2020

Combustion and Flame

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Shashank Vummidi Lakshman

Observations during Al:Zr composite particle combustion in varied gas environments

Viewing internal bubbling and microexplosions in combusting metal particles via x-ray phase contrast imaging

Exploring material chemistry for direct ink writing of reactively formed conductors

Multifunctional Reactive Nanocomposites via Direct Ink Writing

Combustion of explosively dispersed Al-Mg-Zr composite particles

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