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| Naji, M. |
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Becker, Thomas
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Topics
Publications (7/7 displayed)
- 2023Ultrasonic Wave Mode-Based Application for Contactless Density Measurement of Highly Aerated Batterscitations
- 2023Strain-dependent assessment of dough’s polymer structure and functionality during the baking processcitations
- 2022Combined Longitudinal and Surface Acoustic Wave Analysis for Determining Small Filling Levels in Curved Steel Containerscitations
- 2021Surface Energy of Food Contact Materials and Its Relation to Wheat Dough Adhesioncitations
- 2018Development and Application of an Additively Manufactured Calcium Chloride Nebulizer for Alginate 3D-Bioprinting Purposes
- 2016Adaption of a material model and development of a stochastic failure criterion for ceramic matrix composite structures
- 2016A Stochastic Reliability Model for Application in a Multidisciplinary Optimization of a Low Pressure Turbine Blade Made of Titanium Aluminide
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article
Ultrasonic Wave Mode-Based Application for Contactless Density Measurement of Highly Aerated Batters
Abstract
<jats:p>An ultrasonic wave mode-based method for density measurement in highly foamed batters was developed. Therefore, a non-contact ultrasonic sensor system was designed to generate signals for batch-wise processes. An ultrasonic sensor, containing a piezoelectric ceramic at the fundamental longitudinal frequency of 2 MHz, was used to take impedance measurements in pulse-echo mode. The ultrasonic signals were processed and analysed wave-mode wise, using a feature-driven approach. The measurements were carried out for different mixing times within a container, with the attached ultrasonic sensor. Within the biscuit batter, the change to the ultrasonic signals caused by density changes during the batter-mixing process was monitored (R2 = 0.96). The density range detected by the sensor ranges between 500 g/L and 1000 g/L. The ultrasonic sensor system developed also shows a reasonable level of accuracy for the measurements of biscuit batter variations (R2 > 0.94). The main benefit of this novel technique, which comprises multiple wave modes for signal features and combines these features with the relevant process parameters, leads to a more robust system as regards to multiple interference factors.</jats:p>