2024 年 61 巻 11 号 p. 694-700
In manufacturing of advanced functional materials, nanoadditives are often used to induced desired functionalities using powder metallurgy method. Although a vast nanoadditives are available, maximization of their full potential is hindered by the inability to control their distribution within a composite matrix. Therefore, there is a need to control the distribution of nanoadditives incorporation, which is feasible using a wet powder integration process via the electrostatic assembly (EA) method. A brief overview of the EA method is provided along with its feasibility in composite particles and granules design are demonstrated. A controlled powder integration using this method could be beneficial toward the fabrication of multiscale advanced composites using a scalable powder-metallurgy-inspired route.
