Ultrasonic propagation in highly attenuating insulation materials
Sensors, 2020•mdpi.com
Experiments have been performed to demonstrate that ultrasound in the 100–400 kHz
frequency range can be used to propagate signals through various types of industrial
insulation. This is despite the fact that they are highly attenuating to ultrasonic signals due to
scattering and viscoelastic effects. The experiments used a combination of piezocomposite
transducers and pulse compression processing. This combination allowed signal-to-noise
levels to be enhanced so that signals reflected from the surface of an insulated and cladded …
frequency range can be used to propagate signals through various types of industrial
insulation. This is despite the fact that they are highly attenuating to ultrasonic signals due to
scattering and viscoelastic effects. The experiments used a combination of piezocomposite
transducers and pulse compression processing. This combination allowed signal-to-noise
levels to be enhanced so that signals reflected from the surface of an insulated and cladded …
Experiments have been performed to demonstrate that ultrasound in the 100–400 kHz frequency range can be used to propagate signals through various types of industrial insulation. This is despite the fact that they are highly attenuating to ultrasonic signals due to scattering and viscoelastic effects. The experiments used a combination of piezocomposite transducers and pulse compression processing. This combination allowed signal-to-noise levels to be enhanced so that signals reflected from the surface of an insulated and cladded steel pipe could be obtained.
MDPI