Measurement of SiC Particle Size Based on Ultrasonic Attenuation Spectrum

Ying Yuan Fan; Zhao Yun Qiu; Shu Wei Li; Fa Ming Liu

doi:10.4028/www.scientific.net/AMR.503-504.370

Paper Titles

Interpretation of the Wood Drum of the Wa Nationality from a Symbolic Semiotic Perspective
p.354

Film Morphology and Film-Forming Ability of Supramolecular Compound Self-Assembled with Amino Polysiloxane Emulsion and Carboxyl Polysiloxane Emulsion
p.358

Stress Analysis in Ceramic Inlays Restored Premolars
p.363

Research on Water Cut of Silicon Steel Plate
p.367

Measurement of SiC Particle Size Based on Ultrasonic Attenuation Spectrum
p.370

Solidification Path Calculations of Al-Cu-Si Alloys in Al-Rich Corner
p.374

Studies on the Microstructure and Properties of TiO₂/(Ag) Thin Films
p.378

The Effects of Machined Workpiece Surface Integrity on the Fatigue Life of TC21 Titanium Alloy
p.382

Calculation and Plot of Predominance Area Phase Diagram for Cu-S-O Ternary System
p.390

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 503-504Measurement of SiC Particle Size Based on...

Measurement of SiC Particle Size Based on Ultrasonic Attenuation Spectrum

Abstract:

To compare the different effects under different excitation methods during the measurement on the particle size of silicon carbide (SiC), an experimental system has been established to get different signal excitations of burst wave, continuous wave and pulsed wave. Variable sound path method is adopted during the measurement to obtain the ultrasonic attenuation spectrum of SiC suspensions with two immersion transducers at four different mass concentrations under the same experimental condition. It is found that the ultrasonic attenuation coefficients excited by three different waves increase with increasing frequency and the tendency is approaching the same. The result calculated by a normalized spectrum of the optimal regularization methods shows that SiC particle size distribution under the three excitation methods is similar, which indicate that the different excitation methods on particle size characterization have almost no influence to result.