Investigation of the Quartz Distribution in Electro-Porcelain Materials

IF 2.7 Q1 MATERIALS SCIENCE, CERAMICS
Fanni Senze, S. Höhn, B. Matthey, J. Schulte-Fischedick, M. Herrmann
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引用次数: 1

Abstract

Analysis of the microstructure of electro-porcelain is important to better understand its influence on mechanical, electrical and aging behavior. The microstructures of two electro-porcelain materials with low and high quartz contents were analyzed with respect to the distribution of quartz. Using an adequate evaluation of EDS (energy dispersive spectroscopy) mapping data, a reproducible analysis of the size distribution and quantity of quartz was achieved. The method allows the analysis of large areas (12.5 mm2). Therefore, the probability of occurrence for a few large quartz grains could be determined. Independent of the overall amount of quartz in the materials, a wide distribution of the grain size was observed. The size of the large detected quartz grains in both materials was very similar. Around the large quartz particles, microcrack systems with lengths of several 100 µm were observed. They are linearly correlated with the equivalent circle diameter of the quartz grains. The evaluation of the cracks allowed us to determine the critical size below which no cracks around the quartz particles are formed. This size is approximately 10 µm.
电瓷材料中石英分布的研究
分析电瓷的微观结构对于更好地了解电瓷的力学、电学和时效性能的影响具有重要意义。从石英的分布角度分析了高、低石英含量两种电瓷材料的显微结构。利用EDS(能量色散光谱)作图数据的充分评价,实现了石英尺寸分布和数量的可重复性分析。该方法允许分析大面积(12.5 mm2)。因此,可以确定几个大石英颗粒的出现概率。与材料中石英的总量无关,观察到晶粒尺寸的广泛分布。两种材料中检测到的大石英颗粒的尺寸非常相似。在大的石英颗粒周围,观察到长度为100µm的微裂纹系统。它们与石英颗粒的等效圆直径呈线性相关。对裂纹的评估使我们能够确定在石英颗粒周围不形成裂纹的临界尺寸。该尺寸约为10µm。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.00
自引率
7.10%
发文量
66
审稿时长
10 weeks
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