Influence of aerosol formation mechanism by an ultrasonic field on particle size distribution of ceramic powders
1999
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Aerosol droplet genesis by ultrasonic atomization has been theoretically studied using a model for three-dimensional spherical/ellipsoidal waves generated by excitation of a system of given geometry by forced frequency of an ultrasonic oscillator. Analyzing the harmonic function of the rate potential, an equation has been derived that defines the mean diameter and the distribution spectrum of aerosol droplets formed at the surface of a liquid. Comparison has been made between the calculated values for the mean particle sizes and their distribution with those obtained experimentally for Al2O3, mullite and cordierite powders synthesized from different precursors.
Ključne reči:
aerosol formation mechanism / ceramic powder / particle size distribution / ultrasonic fieldIzvor:
Ultrasonics Sonochemistry, 1999, 6, 3, 157-169Izdavač:
- Elsevier Science Bv, Amsterdam
DOI: 10.1016/S1350-4177(99)00007-3
ISSN: 1350-4177
WoS: 000080591900004
Scopus: 2-s2.0-0345161501
Institucija/grupa
Tehnološko-metalurški fakultetTY - JOUR AU - Jokanović, Vukoman AU - Janaćković, Đorđe AU - Uskoković, Dragan PY - 1999 UR - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/241 AB - Aerosol droplet genesis by ultrasonic atomization has been theoretically studied using a model for three-dimensional spherical/ellipsoidal waves generated by excitation of a system of given geometry by forced frequency of an ultrasonic oscillator. Analyzing the harmonic function of the rate potential, an equation has been derived that defines the mean diameter and the distribution spectrum of aerosol droplets formed at the surface of a liquid. Comparison has been made between the calculated values for the mean particle sizes and their distribution with those obtained experimentally for Al2O3, mullite and cordierite powders synthesized from different precursors. PB - Elsevier Science Bv, Amsterdam T2 - Ultrasonics Sonochemistry T1 - Influence of aerosol formation mechanism by an ultrasonic field on particle size distribution of ceramic powders EP - 169 IS - 3 SP - 157 VL - 6 DO - 10.1016/S1350-4177(99)00007-3 ER -
@article{ author = "Jokanović, Vukoman and Janaćković, Đorđe and Uskoković, Dragan", year = "1999", abstract = "Aerosol droplet genesis by ultrasonic atomization has been theoretically studied using a model for three-dimensional spherical/ellipsoidal waves generated by excitation of a system of given geometry by forced frequency of an ultrasonic oscillator. Analyzing the harmonic function of the rate potential, an equation has been derived that defines the mean diameter and the distribution spectrum of aerosol droplets formed at the surface of a liquid. Comparison has been made between the calculated values for the mean particle sizes and their distribution with those obtained experimentally for Al2O3, mullite and cordierite powders synthesized from different precursors.", publisher = "Elsevier Science Bv, Amsterdam", journal = "Ultrasonics Sonochemistry", title = "Influence of aerosol formation mechanism by an ultrasonic field on particle size distribution of ceramic powders", pages = "169-157", number = "3", volume = "6", doi = "10.1016/S1350-4177(99)00007-3" }
Jokanović, V., Janaćković, Đ.,& Uskoković, D.. (1999). Influence of aerosol formation mechanism by an ultrasonic field on particle size distribution of ceramic powders. in Ultrasonics Sonochemistry Elsevier Science Bv, Amsterdam., 6(3), 157-169. https://doi.org/10.1016/S1350-4177(99)00007-3
Jokanović V, Janaćković Đ, Uskoković D. Influence of aerosol formation mechanism by an ultrasonic field on particle size distribution of ceramic powders. in Ultrasonics Sonochemistry. 1999;6(3):157-169. doi:10.1016/S1350-4177(99)00007-3 .
Jokanović, Vukoman, Janaćković, Đorđe, Uskoković, Dragan, "Influence of aerosol formation mechanism by an ultrasonic field on particle size distribution of ceramic powders" in Ultrasonics Sonochemistry, 6, no. 3 (1999):157-169, https://doi.org/10.1016/S1350-4177(99)00007-3 . .