2020
DOI: 10.1088/1361-665x/ab68d8
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Temperature-dependent dynamic response in epoxy-free and epoxy-bonded ME composite: a comparative study

Abstract: This work presents an experimental comparative study of the frequency-dependent response of the epoxy-free magnetoelectric (ME) composite against epoxy-bonded two-phase and threephase ME composites of various configurations at varying operating temperatures. Conventionally, ME composites are prepared by bonding the piezoelectric and magnetostrictive material phases by means of an epoxy material. Therefore, the response of the composite becomes a function of the properties of the epoxy used. Since the epoxy pro… Show more

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Cited by 11 publications
(2 citation statements)
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“…A self-biased ME output of 35 mV cm −1 Oe was observed in the case of FeNi/PZT/Ni composite. The efficacy of epoxy-free composites over their epoxy-bonded counterparts was visible in temperature-dependent quasi-static ME measurements, wherein the former showed appreciable response even for temperatures in excess of 150 • C, whereas epoxy-bonded composites displayed poor ME output for temperatures around 100 • C. Similar behavior was also observed under resonant conditions, wherein the press-fit fabricated composites performed reliably at aggravated temperatures when compared to the epoxy-bonded ones [153,154]. Quasistatic and resonant ME models have been formulated in literature which predict the response of these press-fitted disc/ring composites at any thermal operating conditions with good accuracy.…”
Section: Press-fit Methodsmentioning
confidence: 68%
“…A self-biased ME output of 35 mV cm −1 Oe was observed in the case of FeNi/PZT/Ni composite. The efficacy of epoxy-free composites over their epoxy-bonded counterparts was visible in temperature-dependent quasi-static ME measurements, wherein the former showed appreciable response even for temperatures in excess of 150 • C, whereas epoxy-bonded composites displayed poor ME output for temperatures around 100 • C. Similar behavior was also observed under resonant conditions, wherein the press-fit fabricated composites performed reliably at aggravated temperatures when compared to the epoxy-bonded ones [153,154]. Quasistatic and resonant ME models have been formulated in literature which predict the response of these press-fitted disc/ring composites at any thermal operating conditions with good accuracy.…”
Section: Press-fit Methodsmentioning
confidence: 68%
“…Additionally, the usage of temperature for fabrication might lead to potential depoling of the piezoelectric material. Thus, an alternative yet simpler method was proposed in the form of the press-fit method, wherein the outer diameter of the disc constituent was slightly higher than that of the slot in the ring constituent leading to the formation of interference fit [38][39][40]. Recently, a novel ME distributed disc structured configuration was proposed, which employed the press-fit fabrication technique to enhance the ME response [41,42].…”
Section: Introductionmentioning
confidence: 99%