Effect of Dimension Control of Piezoelectric Layer on the Performance of Magnetoelectric Laminate Composite

Kyung-Hoon Cho

Korean Journal of Materials Research, Vol.28, No.11, 611-614, November, 2018

DOI10.3740/MRSK.2018.28.11.611 Export Citation

Effect of Dimension Control of Piezoelectric Layer on the Performance of Magnetoelectric Laminate Composite

Kyung-Hoon Cho^†

School of Materials Science and Engineering, Kumoh National Institute of Technology, 61 Daehak-ro, Gumi, Gyeongbuk 39177, Republic of Korea

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Laminate composites composed of 0.95Pb(Zr0.52Ti0.48)O3-0.05Pb(Mn1/3Sb2/3)O3 piezoelectric ceramic and Fe-Si-B based magnetostrictive amorphous alloy are fabricated, and the effect of control of the areal dimensions and the thickness of the piezoelectric layer on the magnetoelectric(ME) properties of the laminate composites is studied. As the aspect ratio of the piezoelectric layer and the magnetostrictive layer increases, the maximum value of the ME voltage coefficient(αME) increases and the intensity of the DC magnetic field at which the maximum αME value appears decreases. Moreover, as the thickness of the piezoelectric layer decreases, αME tends to increase. The ME composites exhibit αME values higher than 1 Vcm.1Oe.1 even at the non-resonance frequency of 1 kHz. This study shows that, apart from the inherent characteristics of the piezoelectric composition, small thicknesses and high aspect ratios of the piezoelectric layer are important dimensional determinants for achieving high ME performance of the piezoelectric-magnetostrictive laminate composite.

Keywords:magnetoelectric;piezoelectric;magnetostriction

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Fang Z, Lu SG, Li F, Datta S, Zhang QM, El Tahchi M, Appl. Phys. Lett., 95, 112903 (2009)
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[Related Articles]

[1] Nan CW, Bichurin MI, Dong S, Viehland D, Srinivasan G, J. Appl. Phys., 103, 031101 (2008)

[2] Srinivasan G, Annu. Rev. Mater. Res., 40, 153 (2010)

[3] Fiebig M, J. Phys. D-Appl. Phys., 38, R123 (2005)

[4] Nan CW, Liu G, Lin Y, Chen H, Phys. Rev. Lett., 94, 197203 (2005)

[5] Annapureddy V, Kim M, Palneedi H, Lee HY, Choi SY, et al., Adv. Energy Mater., 6, 160124 (2016)

[6] Ryu J, Carazo AV, Uchino K, Kim HE, Jpn. J. Appl. Phys., 40, 4948 (2001)

[7] Islam RA, Priya S, Integr. Ferroelectr., 82, 1 (2006)

[8] Kamble YB, Chougule SS, Chougule B, J. Alloy. Compd., 476, 733 (2009)

[9] Nie JW, Xu GY, Yang Y, Cheng CW, Mater. Chem. Phys., 115(1), 400 (2009)

[10] Li YJ, Chen XM, Lin YQ, Tang YH, J. European Ceram. Soc., 26, 2839 (2006)

[11] Patil DR, Chougule BK, J. Alloy. Compd., 458, 335 (2008)

[12] Zhang ST, Ding LY, Lu MH, Luo ZL, Chen YF, Solid State Commun., 148, 420 (2008)

[13] Wang YJ, Gray D, Berry D, Gao JQ, Li MH, Li JF, Viehland D, Adv. Mater., 23(35), 4111 (2011)

[14] Cho KH, Park CS, Priya S, Appl. Phys. Lett., 97, 182902 (2010)

[15] Fang Z, Lu SG, Li F, Datta S, Zhang QM, El Tahchi M, Appl. Phys. Lett., 95, 112903 (2009)

[16] Palneedi H, Na SM, Hwang ST, Peddigari M, Shin KW, Kim KH, Ryu J, J. Alloy. Compd., 765, 764 (2018)

[17] Newnham RE, Properties of Materials: Anisotropy, Symmetry, Structure, Oxford University Press Inc., New York (2005).