电场辅助钛酸铋热锻

Proceedings of 1994 IEEE International Symposium on Applications of Ferroelectrics Pub Date : 1994-08-07 DOI:10.1109/ISAF.1994.522315

P. Fuierer, A. Nichtawitz

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引用次数: 8

摘要

在锻造过程中施加在试样上的电场预计会影响晶粒生长和取向的动力学。此外，就像场可以使向列液体中的分子与外加场方向上极化率最大的轴对齐一样，在高温致密化过程中，晶体中的极性轴也可能对齐。这可能改善某些低对称性铁电材料的电学或压电性能。这个想法是将晶体排列、致密化和极化都结合到一个步骤中，并在多晶陶瓷中接近单晶性质。在低对称性铁电材料Bi/sub 4/Ti/sub 3/O/sub 12/的锻造方向上施加直流和交流电场。发现交流电场对晶体取向的影响很小。直流磁场被发现有深远的影响;在锻造过程中调整极轴，并在铁电迟滞中产生进一步的各向异性。

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Electric field assisted hot forging of bismuth titanate

An electric field applied across a specimen during the forging process is expected to affect the kinetics of grain growth and orientation. In addition, just as a field can align molecules in a nematic liquid with the axis of greatest polarizability in the direction of the applied field, it is possible that the polar axis in a crystallite may also be aligned during the high temperature densification process. This may improve the electric or piezoelectric properties of certain low symmetry ferroelectric materials. The idea is to combine crystallographic alignment, densification and poling all into one step, and approach single crystal-like properties in a polycrystalline ceramic. Electric fields (both DC and AC) were applied transverse to the forging direction of the low symmetry ferroelectric Bi/sub 4/Ti/sub 3/O/sub 12/. The AC field was found to have little influence on crystallographic orientation. The DC field was found to have a profound effect; aligning the polar axis during forging, and yielding further anisotropy in the ferroelectric hysteresis.

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Proceedings of 1994 IEEE International Symposium on Applications of Ferroelectrics

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