Free Suspended Thin-Walled Nickel Electroplated Tubes for Microfluidic Density and Mass Flow Sensors

In this paper, a novel fabrication method is proposed for microfluidic tubes with a large diameter, circular cross-section, and thin wall. These properties make the tubes especially suitable for density sensors and Coriolis mass flow sensors, because of the resulting low tube mass, low-pressure drop...

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Veröffentlicht in:Journal of microelectromechanical systems 2022-06, Vol.31 (3), p.408-414
Hauptverfasser: Yariesbouei, Mahdieh, Sanders, Remco G. P., Moazzenzade, Taghi, Wiegerink, Remco J., Lotters, Joost C.
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Sprache:eng
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Zusammenfassung:In this paper, a novel fabrication method is proposed for microfluidic tubes with a large diameter, circular cross-section, and thin wall. These properties make the tubes especially suitable for density sensors and Coriolis mass flow sensors, because of the resulting low tube mass, low-pressure drop, and low pressure-dependence of the tube shape. A demonstrator sensor was fabricated and the first measurement results of fluid density and mass flow are presented. The low-cost fabrication method is based on electroplating technology and results in tubes with a near-perfect circular cross-section. Diameters ranging from 120 \mu \text{m} to 1 mm and wall thicknesses from 8~\mu \text{m} to 60 \mu \text{m} have been achieved. For the demonstrator sensor presented in this paper a freely suspended tube was realized with a total length of 37 mm, a diameter of 600 \mu \text{m} , and a wall thickness of 20 \mu \text{m} . Density measurements were performed using various gases, liquids, and liquid mixtures at 21°C to 23°C lab temperature. The accuracy of the measured densities of gases such as nitrogen, argon, and helium is 5%. For liquids including DI water, isopropyl alcohol (IPA), and their various mixtures an accuracy of 0.5% was obtained. Preliminary mass flow rate measurements were performed with water and isopropyl alcohol up to 30 g/h with less than 30 mbar pressure drop thanks to the large tube diameter. [2021-0179]
ISSN:1057-7157
1941-0158
DOI:10.1109/JMEMS.2022.3149632