Abstract
In this paper, the features and main nuances of electrophoretic deposition of energetic nanoscale powder materials based on Al and CuOx were investigated and formulated. We have successfully demonstrated the advantage of using suspension non-stop ultrasonic mixing and horizontal electrode placement during deposition. The possibility of local deposition of energetic materials on an electrically conductive topological pattern was shown. The influence of the mass of the deposited material on the behavior of the wave combustion process of a locally formed energetic material was investigated. This study provides guidance for the multiobjective optimization and increasing the reproducibility of the local electrophoretic deposition process of energetic materials. The results indicate that Al-CuOx mixture can be integrated into microenergy systems as a material with excellent specific energy characteristics and high combustion rate.
Highlights
Energy is one of the most acute and urgent areas of research in the modern World
As mentioned earlier in the electrophoretic deposition (EPD) process the particles dispersed in a solvent are attracted and deposited on an electrode by applying an electric field
Factors that increase the stability of the EPD process were considered
Summary
Energy is one of the most acute and urgent areas of research in the modern World. This broad concept includes the problems of generation, conversion and storage of energy. A large block of potential applications is associated with microenergy including microelectronics for surfaces bonding and components brazing [10], for MEMS applications [11], time delays [12, 13.], etc Under these conditions, the development of methods for precision control of the composition and structure of the material, methods for the formation of these materials in the required areas (i.e. locally on patterned substrates) becomes a big challenge. The development of methods for precision control of the composition and structure of the material, methods for the formation of these materials in the required areas (i.e. locally on patterned substrates) becomes a big challenge Among other things, these methods, materials and processes must be compatible with traditional technology of integral microelectronics. The possibility of local deposition of Al-CuOx material on substrates with a topological pattern was demonstrated, and the process of its combustion was investigated
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