Article | REF: NM5050 V1

Energetic nanomaterials: prospects for integration in microsystems

Author: Carole ROSSI

Publication date: April 10, 2008 | Lire en français

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4. Various ways of improving conventional materials

4.1 Doping with aluminium nanoparticles

On nanoparticles

Inorganic nanoparticles, [NM 200] by M. Wautelet

The incorporation of highly thermally conductive nanoparticles in composite energetic compositions was the first avenue explored by researchers to improve the thermal conduction of the flame front in the material and, consequently, increase combustion speed.

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Various ways of improving conventional materials

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Different synthesis routes for thermal nanocomposites

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(1) - ROSSI (C.), BRIAND (D.), DUMONTEUIL (M.), CAMPS (T.), PHAM (P.Q.), De ROOIJ (Ni.F.) - Matrix of 10 × 10 Addressed Solid Propellant Microthrusters : Review of the Technologies. - Sensors and Actuators A : Physical, vol. 126, n° 1, p. 241-252 (2006).
(2)...

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