以电容性微电子元件为基础的复合材料

2000 22nd International Conference on Microelectronics. Proceedings (Cat. No.00TH8400) Pub Date : 2000-05-14 DOI:10.1109/ICMEL.2000.838748

V. Paunovic, L. Vulićević, V. Dimić, D. Stefanovic

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引用次数: 0

摘要

BaTiO/sub - 3/-陶瓷是最重要的介电材料之一。采用钛酸钡在1380/spl℃/240 min等温烧结的方法，获得了最佳的电容陶瓷样品性能。研究了钛酸钡和酚醛树脂复合介质材料的可能性预测，特别是从它们在电容器技术中的应用角度进行了研究。在这里，BaTiO/sub 3/相以小于100 /spl mu/m的粒度形式分散在均质有机基质材料中。考察了陶瓷粉末体积比、介电常数和复合材料微观结构的变化对复合材料某些性能的影响。由此建立了相应电气元件的相应电气模型。

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Capacitive microelectronic components on the basis of the composite materials

BaTiO/sub 3/- ceramic is one of the most important dielectric materials. Optimal sample properties for capacitive ceramic are obtained by isothermal sintering of barium titanate at 1380/spl deg/C/240 min. The possibility prognosis of composite dielectric material composed of a barium titanate and novolac (phenolformaldehyde) are examined, especially from the standpoint of their application in the technology as capacitors. Here, BaTiO/sub 3/ phase in the form of particle size less than 100 /spl mu/m is dispersed in homogenous organic matrix materials. Variation of some composite properties by change in volume ratio ceramic powder, and change of dielectric constant and microstructure of composite are examined. Above mentioned allow to establish the appropriate electrical model of corresponding electrical component was formed.

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来源期刊

2000 22nd International Conference on Microelectronics. Proceedings (Cat. No.00TH8400)

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