Rapid cooling of a high-temperature block by the attachment of a honeycomb porous plate on a nanoparticle-deposited surface

In the present paper, we focus on the quenching behavior of a honeycomb porous plate on a nanoparticle-deposited surface. As a result, the quenching period was significantly reduced by approximately 22% as compared to the case of bare surface (without surface modification) due to the combination of nanoparticle deposition and a honeycomb porous plate.