Green Cleaning of 3D-Printed Polymeric Products by Micro-/Nano-Bubbles

Abstract: 3D printing technology has been used to directly produce various actual products, ranging from engines and medicines to toys, especially due to its advantage in producing items of complicated, porous structures, which are inherently difficult to clean. Here, we apply micro-/nano-bubble technology to the removal of oil contaminants from 3D-printed polymeric products. Micro-/nano-bubbles show promise in the enhancement of cleaning performance with or without ultrasound, which is attributed to their large specifi… Show more

“…Micro-nano bubbles were introduced by ultrasonic cavitation after the composite particles were melted. So novel composite electrospun films were prepared by adding inorganic scattering particles [52,53] with micro-nano bubbles [54][55][56][57][58][59] (Figure 9b). The cooling performance of the films was enhanced after a series of experiments, simulations, and process optimization.…”

Dawn of clean energy: Enhanced heat transfer, radiative cooling, and firecracker-style controlled nuclear fusion power generation system

“…Micro-nano bubbles were introduced by ultrasonic cavitation after the composite particles were melted. So novel composite electrospun films were prepared by adding inorganic scattering particles [52,53] with micro-nano bubbles [54][55][56][57][58][59] (Figure 9b). The cooling performance of the films was enhanced after a series of experiments, simulations, and process optimization.…”

Dawn of clean energy: Enhanced heat transfer, radiative cooling, and firecracker-style controlled nuclear fusion power generation system