Title :
New ultrasonic dispersion method for nanoparticles using cylindrical piezoelectric transducer
Author :
Kim, Jungsoon ; Kim, Moojoon ; Ha, Kanglyeol
Author_Institution :
Dept. of Media Eng., Tongmyong Univ., Busan, South Korea
Abstract :
Dispersion of powders into liquids has become one of the most important techniques in high-tech industries and it is a common process in the formulation of various products, such as paint, ink, shampoo, beverages, and polishing media. In this study, an ultrasonic system with a cylindrical transducer is newly introduced for pure nanoparticles dispersion. The acoustics pressure field and the characteristics of the shock pulse caused by cavitations are investigated. The frequency spectrum of the pulse from the collapse of air bubbles in the cavitations is analyzed theoretically. It was confirmed that Al2O3 suspension can be dispersed effectively using the suggested system.
Keywords :
bubbles; cavitation; nanoparticles; piezoelectric transducers; powders; shock waves; ultrasonic dispersion; acoustics pressure field; air bubbles; cavitation; cylindrical piezoelectric transducer; powder dispersion; pure nanoparticle dispersion; shock pulse characteristic; ultrasonic dispersion method; Acoustics; Aluminum oxide; Dispersion; Electron tubes; Nanoparticles; Suspensions; Transducers; cylindrical piezoelectric ceramis; dispersion; focusing; nanoparticle; ultrasound;
Conference_Titel :
Ultrasonics Symposium (IUS), 2010 IEEE
Conference_Location :
San Diego, CA
Print_ISBN :
978-1-4577-0382-9
DOI :
10.1109/ULTSYM.2010.5935609
