Density Measurement Performance in Flowing Liquid Using Microcantilever-Based Resonators under Bending and Torsion Vibrations

机译：在弯曲和扭转振动下使用基于微电子的谐振器流动液体的密度测量性能

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The performance of microcantilever-based resonator working under different operation modes is analyzed in fluid density determination at different flow velocities. A setup is designed to control the liquid flow velocity along normal and tangential directions in the range of 0-4.37 m/s. Microcantilever-based resonators are fabricated with different lengths, which are excited to vibrate under 1 st bending and 2 nd torsion modes. The experimental results show that the normal flow velocity plays a leading role to impair the density measuring accuracy. The microcantilever-based resonator with shorter length and in higher order vibration mode is demonstrated to have a better measurement performance in flowing liquids.

机译：在不同操作模式下，在不同流速的流体密度测定中分析了基于微电子的谐振器的性能。设定设计用于在0-4.37m / s的范围内控制沿正常和切线方向的液体流速。基于微电子的谐振器具有不同的长度，其在1个ST弯曲和2个Nd扭转模式下振动振动。实验结果表明，正常的流速起着损害密度测量精度的主导作用。以较短长度和更高阶振动模式的基于微电子的谐振器被证明是在流动的液体中具有更好的测量性能。

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《International Conference on Solid-State Sensors, Actuators and Microsystems》|2019年|p1250-1896|共4页
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Linya Huang; Libo Zhao; Yingjie Hu; Hongyan Wang; Dejiang Lu; Xudong Fang; Guoxi Luo; Chenying Wang; Ping Yang; Weixuan Jing; Yulong Zhao; Zhuangde Jiang;
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中图分类自动化技术及设备;
关键词
Density measurement; microcantilever-based resonator; fluid flow velocity; operation mode;

机译：密度测量;基于微电子的谐振器;流体流速;操作模式;

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专利

1. Second flexural and torsional modes of vibration in suspended microfluidic resonator for liquid density measurements [J] . Journal of Micromechanics and Microengineering . 2020,第5期

机译：悬浮微流体谐振器中振动的第二弯曲和扭转模式，用于液体密度测量
2. Measurement of Liquid Viscosity and Density Using Single Piezoelectric Resonator with Two Vibration Modes [J] . Jun Takarada, Naoto Wakatsuki, Koichi Mizutani, Japanese journal of applied physics . 2012,第7Issue2期

机译：使用具有两种振动模式的单个压电谐振器测量液体的粘度和密度
3. Support loss for beam undergoing coupled vibration of bending and torsion in rocking mass resonator [J] . Wang X., Xiao D., Zhou Z., Sensors and Actuators, A. Physical . 2011,第2期

机译：摇摆质量共振器中弯曲扭转耦合振动的梁的支撑损耗。
4. Density Measurement Performance in Flowing Liquid Using Microcantilever-Based Resonators under Bending and Torsion Vibrations [C] . Linya Huang, Libo Zhao, Yingjie Hu, 2019 20th International Conference on Solid-State Sensors, Actuators and Microsystems amp; Eurosensors XXXIII . 2019

机译：使用基于微悬臂梁的谐振器在弯曲和扭转振动下在流动液体中的密度测量性能
5. FREE VIBRATION ANALYSIS WITH BEAM MODELS WHICH INCLUDE BENDING WARPING, TORSION WARPING AND ANTICLASTIC BENDING EFFECTS. [D] . EWING, MARK STEPHAN. 1983

机译：使用梁模型的自由振动分析，其中包括弯曲翘曲，扭转翘曲和抗弯弯曲效果。
6. A Novel Slope Method for Measurement of Fluid Density with a Micro-cantilever under Flexural and Torsional Vibrations [O] . Libo Zhao, Yingjie Hu, Rahman Hebibul, 2016

机译：用微悬臂梁在弯曲和扭转振动下测量流体密度的新型斜率方法
7. Second flexural and torsional modes of vibration in suspended microfluidic resonator for liquid density measurements [O] . Pierpaolo Belardinelli, Savio N F D Souza, Eleonoor Verlinden, 2020

机译：悬浮微流体谐振器中振动的第二弯曲和扭转模式，用于液体密度测量
8. An Analysis of the Torsion-Rotation-Vibration Rotational Spectrum of the Lowest In-Plane Bend and First Excited Torsional State of the C(sub 3v) Internal Rotor C(sub 2)H(sub 5)CN [R] . Pearson, J., Pickett, H., Sastry, K. 1999

机译：C（sub 3v）最低面内弯曲和第一激发扭转状态的扭转 - 旋转 - 振动旋转谱分析

Density Measurement Performance in Flowing Liquid Using Microcantilever-Based Resonators under Bending and Torsion Vibrations

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