Electro-conductive porous ceramics prepared by chemical vapor infiltration of TiN

Ohzawa Y; Cheng X; Achiha T; Nakajima T; Groult H

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Electro-conductive porous ceramics prepared by chemical vapor infiltration of TiN

机译：通过TiN化学气相渗透制备的导电多孔陶瓷

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Using pressure-pulsed chemical vapor infiltration (PCVI) method, TiN was partially infiltrated at 850 degrees C from gas system of TiCl4 (1%)-N-2 (10%)-H-2 into the highly porous carbon substrates prepared by the carbonization of cotton-wool, filter paper, and wood at 1,000 degrees C in Ar for 4 h. After 10,000 pulses of PCVI, electro-conductive porous ceramics having the three-dimensionally continuous current paths were obtained, which had the porosity of 80% and more, the resistivity of 10(-5)-10(-6) Omega m, and the average pore sizes of 10-40 mu m. The geometric surface area per unit volume of the sample was higher than that of the conventional foil-type current collector for lithium-ion battery. The surface area showed the highest value for the sample obtained from carbonized wood substrate.

机译：使用压力脉冲化学气相渗透（PCVI）方法，TiN在850摄氏度下从TiCl4（1％）-N-2（10％）-H-2的气体系统中部分渗透到高孔隙度碳基底中棉，滤纸和木材在1,000摄氏度的Ar中碳化4小时。经过10,000个PCVI脉冲后，获得了具有三维连续电流路径的导电多孔陶瓷，其孔隙率为80％以上，电阻率为10（-5）-10（-6）Ω·m，且平均孔径为10-40微米。样品的每单位体积的几何表面积比常规的用于锂离子电池的箔型集电器的几何表面积高。从碳化木基材获得的样品的表面积显示出最高值。

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《Journal of Materials Science》 |2008年第8期|共6页
作者
Ohzawa Y; Cheng X; Achiha T; Nakajima T; Groult H;
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正文语种 eng
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关键词
PULSE CVI; COMPOSITES; DENSIFICATION; PREFORMS; CARBON;

机译：脉冲CVI;复合材料;致密化;预成型;碳;

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Electro-conductive porous ceramics prepared by chemical vapor infiltration of TiN

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