Theory, Instrumentation and Applications of Magnetoelastic Resonance Sensors: A Review
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This paper builds upon a review paper published in Sensors in 2002, presenting a comprehensive review on the theory, operating principles, instrumentation and key applications of magnetoelastic sensing technology.Abstract:
Thick-film magnetoelastic sensors vibrate mechanically in response to a time varying magnetic excitation field. The mechanical vibrations of the magnetostrictive magnetoelastic material launch, in turn, a magnetic field by which the sensor can be monitored. Magnetic field telemetry enables contact-less, remote-query operation that has enabled many practical uses of the sensor platform. This paper builds upon a review paper we published in Sensors in 2002 (Grimes, C.A.; et al. Sensors 2002, 2, 294-313), presenting a comprehensive review on the theory, operating principles, instrumentation and key applications of magnetoelastic sensing technology.read more
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References
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Theory of Elasticity (3rd ed.)
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Design and application of a wireless, passive, resonant-circuit environmental monitoring sensor
TL;DR: A wireless, passive, remote query sensor platform capable of monitoring the complex permittivity of a surrounding medium, temperature, humidity, and pressure is presented.
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Wireless Magnetoelastic Resonance Sensors: A Critical Review
Craig A. Grimes,Casey Mungle,Kefeng Zeng,Mahaveer K. Jain,William R. Dreschel,Maggie Paulose,Keat Ghee Ong +6 more
TL;DR: A comprehensive review of magnetoelastic sensor technology can be found in this article, where the authors discuss operating physics, sensor design, and illustrative applications, as well as their applications.
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A Wireless, Remote Query Glucose Biosensor Based on a pH-Sensitive Polymer
TL;DR: This paper describes a wireless, remote query glucose biosensor using a ribbonlike, mass-sensitive magnetoelastic sensor as the transducer, which can potentially be applied to in vivo and in situ measurement of glucose concentrations.
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A remote query magnetostrictive viscosity sensor.
P.G. Stoyanov,Craig A. Grimes +1 more
TL;DR: An elastic wave model is presented that describes the sensor response as a function of the frictional forces acting upon the sensor surface.