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Effect of grain boundaries on the conductivity of high-purity ZrO2---Y2O3 ceramics

机译：晶界对高纯ZrO2 --- Y2O3陶瓷电导率的影响

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Grain boundary conductivities are determined by complex impedance measurements (1–106 Hz) on high-purity ceramics prepared by the alkoxide synthesis and on less pure ceramics obtained from a commercial powder. The grain size was varied systematically in the region 0.36–55 μm. The grain boundary conductivity is strongly influenced by the grain size, impurities and cooling procedure. The grain boundary conductivity increases linearly with the grain size for small grain sizes (0.3 to 2–4 μm) and is constant for larger grain sizes. The calculated specific conductivity of the grain boundary for pure materials is about 100 times smaller than that of the bulk. The grain boundary thickness was estimated to be 5.4 nm. The activation energy of the grain boundary conductivity is 7 kJ mole−1 higher than of the bulk.

机译：晶界电导率是通过对通过醇盐合成制备的高纯度陶瓷和从市售粉末获得的纯度较低的陶瓷进行复数阻抗测量（1–106 Hz）来确定的。晶粒尺寸在0.36-55μm范围内系统变化。晶界电导率受晶粒尺寸，杂质和冷却程序的强烈影响。对于小晶粒尺寸（0.3至2-4μm），晶界电导率随晶粒尺寸线性增加，而对于大晶粒尺寸，电导率恒定。计算得出的纯材料晶界的比电导率大约是体积的100倍。晶界厚度估计为5.4nm。晶界电导率的活化能比本体的活化能高7 kJ mole-1。

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Verkerk M.J.; Middelhuis B.J.; Burggraaf A.J.;
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年度 1982
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Effect of grain boundaries on the conductivity of high-purity ZrO2---Y2O3 ceramics

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