High-frequency viscoelastic measurements of fluids based on microcantilever sensing: New modeling and experimental issues

Lemaire E.; Caillard B.; Youssry M.; Dufour I.

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High-frequency viscoelastic measurements of fluids based on microcantilever sensing: New modeling and experimental issues

机译：基于微悬臂梁传感的高频粘弹性流体测量：新的建模和实验问题

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In general, microrheology is carried out using active or passive particle-tracking techniques. In the present paper, a novel technique based on the out-of-plane bending vibrations of a microcantilever beam immersed into a liquid is proposed for microrheological property measurement. We propose to analytically link the damped beam motion with the rheological properties of the fluid in order to establish a dynamic rheogram which spans at least one decade of the kiloHertz frequency domain. The latest improvements in terms of both analytical modeling and experimental set-up are detailed, along with a complete explanation of the calculation method. Four rheograms of Newtonian and non-Newtonian liquids obtained from the frequency response of three immersed cantilevers of different geometries are presented.

机译：通常，微流变学是使用主动或被动粒子跟踪技术进行的。在本文中，提出了一种基于浸入液体中的微悬臂梁的面外弯曲振动的新技术，用于微流变性能的测量。我们建议将阻尼梁的运动与流体的流变特性进行分析联系，以建立一个动态流变图，其跨度至少为千赫兹频域的十分之一。详细介绍了分析建模和实验设置方面的最新改进，以及对计算方法的完整说明。呈现了从三个不同几何形状的浸入悬臂的频率响应获得的牛顿和非牛顿液体的四个流变图。

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《Sensors and Actuators, A. Physical》 |2013年第null期|共11页
作者
Lemaire E.; Caillard B.; Youssry M.; Dufour I.;
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正文语种 eng
中图分类 73.8621;
关键词
Measurements; Microcantilever; Microrheology; Modeling; Sensor; Viscoelasticity;

机译：测量;悬臂梁;流变学;建模;传感器;粘弹性;

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1. High-frequency viscoelastic measurements of fluids based on microcantilever sensing: New modeling and experimental issues [J] . Lemaire E., Caillard B., Youssry M., Sensors and Actuators, A. Physical . 2013,第Null期

机译：基于微悬臂梁传感的高频粘弹性流体测量：新的建模和实验问题
2. Predictions of the Compressible Fluid Model and its Comparison to Experimental Measurements ofQFactors and Flexural Resonance Frequencies for Microcantilevers [J] . JasonJensen, MartinHegner Journal of Sensors . 2012,第6期

机译：可压缩流体模型的预测及其与微悬臂梁Q因子和挠曲共振频率的实验测量结果的比较
3. Fluid sensing using microcantilevers: From physics-based modeling to deep learning [J] . M. Ghommem, V. Puzyrev, F. Najar Applied Mathematical Modelling . 2020,第Deca期

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4. HIGH-FREQUENCY LINEAR VISCOSITY OF EMULSIONS COMPOSED OF TWO VISCOELASTIC FLUIDS [C] . J. Blawzdziewicz, E. Wajnryb International Congress of Theoretical and Applied Mechanics . 2004

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5. TURBULENCE MEASUREMENTS AND MODELING OF VISCOELASTIC FLUID FLOW IN A RECTANGULAR OPEN CHANNEL [D] . LEE, HYUN SOON 1982

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6. Experimental Measurement of Settling Velocity of Spherical Particles in Unconfined and Confined Surfactant-based Shear Thinning Viscoelastic Fluids [O] . Sahil Malhotra, Mukul M. Sharma 2014

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7. High frequency viscoelastic measurements of fluids based on microcantilever sensing: New modeling and experimental issues [O] . Lemaire, Etienne, Caillard, Benjamin, Youssry, Mohamed, 2013

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High-frequency viscoelastic measurements of fluids based on microcantilever sensing: New modeling and experimental issues

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