On the separation of the contributions of powder particle cores and intergranular contacts to the electric resistivity of the compressed powder materials

H. Braun , P. Herger
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引用次数: 7

Abstract

Since the early measurements of Skaupy and Kantrowitc31 it is well-known that the electric conductivity of powder materials exhibits various, very complex problems. However, for a long period of time, the principal interest in the electric conductivity of conducting powders was focused to its application on carbon brushes2, sintered electric contacts3 and electrochemical batteries4. The most prevailing sintering of metallic or ceramic parts was not affected by the electric conductivity of the raw powder. During the last years, however, electric heating methods, e.g. flash sintering, inductive sintering etc., have been developped and have partly been introduced into the sintering practice. One of the most urgent problems of these new procedures is the powder resistivity. Again, the most important problem of measuring powder resistivities is the separation of the contribution of powder particle cores and surfaces to the entire resistivity of the green powder pressing, before the heating process starts. A few considerations and experimental result will be given here below.

粉末颗粒芯和晶间接触对压缩粉末材料电阻率贡献的分离
自从Skaupy和Kantrowitc31的早期测量以来,众所周知,粉末材料的电导率表现出各种非常复杂的问题。然而,长期以来,人们对导电粉末导电性的主要兴趣集中在其在碳刷2、烧结电触点3和电化学电池4上的应用上。金属或陶瓷零件的最普遍的烧结不受原料粉末的导电性的影响。然而,在过去的几年里,电加热方法,如闪速烧结、感应烧结等,已经得到了发展,并部分引入了烧结实践。这些新程序中最紧迫的问题之一是粉末电阻率。同样,测量粉末电阻率的最重要问题是在加热过程开始之前,分离粉末颗粒芯和表面对生粉末压制的整个电阻率的贡献。下面将给出一些考虑因素和实验结果。
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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