Carolin Steidl scite author profile

Carolin Steidl

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Estimation of acoustic wave non-linearity in ultrasonic measurement systems

Claes¹,

Steidl²,

Hetkämper³

et al. 2020

Preprint

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Most measurement methods based on ultrasound, such as sound velocity, absorption or flow measurement systems, require that the acoustic wave propagation is linear. In many cases, linear wave propagation is assumed due to small signal amplitudes or verified, for example, by analysing the received signal spectra for the generation of harmonic frequency components. In this contribution, we present an approach to quantify occurrence of non-linear effects of acoustic wave propagation in ultrasonic measurement systems based on the evaluation of the acoustic Reynolds number. One parameter required for the determination of the acoustic Reynolds number is the particle velocity of the acoustic wave, which is not trivially obtained in most measurement systems. We thus present a model-based approach to estimate the particle velocity of an acoustic wave by identifying a Mason model from electrical impedance measurements of a given transducer. The Mason model is then used to determine the transducer's velocity output for a given electrical signal, allowing for an evaluation of the acoustic Reynolds number for different target media.

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P2.9 Comparison of deep feature extraction techniques for varying-length time series from an industrial piercing press

Thiel¹,

Steidl²,

Henning³

2019

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Carolin Steidl

Estimation of acoustic wave non-linearity in ultrasonic measurement systems

P2.9 Comparison of deep feature extraction techniques for varying-length time series from an industrial piercing press

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