Title :
A passive, wireless strain sensor using a microfabricated magnetoelastic beam element
Author :
Pepakayala, Venkatram ; Gianchandani, Yogesh B.
Author_Institution :
Center for Wireless Integrated MicroSensing & Syst. (WIMS), Univ. of Michigan, Ann Arbor, MI, USA
Abstract :
This paper describes a resonant wireless strain sensor fabricated from a magnetoelastic alloy. The sensor consists of a doubly-clamped suspended structure comprised of a resonant strip and a strain attenuating spring. Strain causes a shift in magnetoelastic resonant frequency in the longitudinal mode of the sensor, which is detected wirelessly using pick-up coils. The sensor is fabricated from a 28 μm thick foil of Metglas™ 2826MB (Fe40Ni38Mo4B18), a ferromagnetic magnetoelastic alloy, using micro-electrodischarge machining (μEDM). The sensor has an active area of 7×2 mm2 and operates at a resonance frequency of 227.4 kHz. It has a sensitivity of 4300 ppm/mstrain; the dynamic range is 0.2-2.8 mstrain. The sensor geometry can be modified to accommodate differing sensitivity and dynamic range requirements.
Keywords :
boron alloys; coils; electrical discharge machining; ferromagnetic materials; iron alloys; magnetic sensors; magnetoelastic effects; micromachining; microsensors; molybdenum alloys; nickel alloys; pick-ups; strain measurement; strain sensors; thick film sensors; wireless sensor networks; μEDM; Fe40Ni38Mo4B18; Metglas 2826MB; doubly-clamped suspended structure; ferromagnetic magnetoelastic alloy; frequency 227.4 kHz; geometry; longitudinal sensor mode; magnetoelastic resonant frequency; microelectrodischarge machining; microfabricated magnetoelastic beam element; passive resonant wireless strain sensor; resonant strip; size 28 mum; strain attenuating spring; thick pick-up coil; Amorphous magnetic materials; Magnetic resonance; Magnetostriction; Saturation magnetization; Strain;
Conference_Titel :
SENSORS, 2013 IEEE
Conference_Location :
Baltimore, MD
DOI :
10.1109/ICSENS.2013.6688596
