Title :
High frequency properties of passive materials for ultrasonic transducers
Author :
Wang, Haifeng ; Ritter, Timothy A. ; Cao, Wenwu ; Shung, K. Kirk
Author_Institution :
Mater. Res. Lab., Pennsylvania State Univ., University Park, PA, USA
Abstract :
The acoustic properties of passive materials for ultrasonic transducers have been measured at room temperature in the frequency range from 25 to 65 MHz using ultrasonic spectroscopy. These materials include alumina/EPO-TEK 301 composites and tungsten/EPO-TEK 301 composites. Experimental results showed that the acoustic impedance of the composites monotonically increased with the volume fraction of the particle filler, which is in agreement with the Denavey model. The attenuation, however, peaked between 7 and 9% volume fraction of particle filler. For comparison, several other passive materials were also fabricated and measured. The results suggest that materials that possess a higher attenuation also appear to have a larger velocity dispersion.
Keywords :
acoustic impedance; composite materials; ultrasonic transducers; ultrasonic velocity; 25 to 65 MHz; Al/sub 2/O/sub 3/; Denavey model; HF properties; US transducers; W; W/EPO-TEK 301 composites; acoustic impedance; acoustic properties; alumina/EPO-TEK 301 composites; attenuation; high frequency properties; particle filler; passive materials; ultrasonic spectroscopy; velocity dispersion; Acoustic materials; Acoustic measurements; Attenuation; Composite materials; Frequency measurement; Spectroscopy; Temperature distribution; Temperature measurement; Ultrasonic transducers; Ultrasonic variables measurement; Aluminum Oxide; Epoxy Compounds; Lenses; Transducers; Tungsten; Ultrasonography;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
