Lead-Free (Ba<inf>0.70</inf>Sr<inf>0.30</inf>)TiO<inf>3</inf>-Modified Bi<inf>0.5</inf>(Na<inf>0.80</inf>K<inf>0.20</inf>)<inf>0.5</inf>TiO<inf>3</inf>Ceramics with Large Electric Field-Induced Strains

Lead-Free (Ba<inf>0.70</inf>Sr<inf>0.30</inf>)TiO<inf>3</inf>-Modified Bi<inf>0.5</inf>(Na<inf>0.80</inf>K<inf>0.20</inf>)<inf>0.5</inf>TiO<inf>3</inf>Ceramics with Large Electric Field-Induced Strains

© 2016 The American Ceramic Society. The dielectric, ferroelectric, and electric field-induced strain behavior of Bi0.5(Na0.80K0.20)0.5TiO3(BNKT) ceramics modified with (Ba0.70Sr0.30)O3(BST) were investigated as a function of composition and temperature. The ceramic samples were synthesized by a sol...

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Bibliographic Details
Main Authors: Pharatree Jaita, Anucha Watcharapasorn, Nitish Kumar, Sukanda Jiansirisomboon, David P. Cann
Format: Journal
Published: 2018
Subjects:
Earth and Planetary Sciences
Materials Science
Online Access:https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84969335392&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/55648
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Institution: Chiang Mai University
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Summary:© 2016 The American Ceramic Society. The dielectric, ferroelectric, and electric field-induced strain behavior of Bi0.5(Na0.80K0.20)0.5TiO3(BNKT) ceramics modified with (Ba0.70Sr0.30)O3(BST) were investigated as a function of composition and temperature. The ceramic samples were synthesized by a solid-state mixed oxide method and sintered at 1125°C for 2 h. The XRD and Raman spectra showed coexisting rhombohedral and tetragonal phases throughout the entire compositional range with the tetragonal phase becoming dominant at higher BST concentrations. For all compositions, the temperature dependence of the dielectric spectra revealed a frequency dependence that is characteristic of a relaxor mechanism. This suggests that these ceramics lacked long-range order and it appears that the maximum disorder was observed for the composition with 5 mol% BST (BNKT-0.05BST sample). This was evidenced by the observation of pinched hysteresis loops, even at room temperature, and a significant decrease in the Prand Ecvalues which resulted in large electric field-induced strains (Smax) of 0.40% and a normalized strain coefficient (d33∗- = Smax/Emax) of 732 pm/V. This significant strain enhancement at the composition of x = 0.05 may be attributed to both a composition-induced structural phase transition and a field-induced relaxor to ferroelectric phase transition.

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