多层陶瓷电容器的弯曲裂纹:断裂扩展实验

J. Ahmar, E. Wiss, S. Wiese
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引用次数: 0

摘要

在需要大尺寸多层陶瓷电容器(MLCC)为高压应用提供更大容量或更高介电强度的领域,脆性X7R BaTiO3陶瓷介电材料的开裂是一个严重的问题。因此,了解多层陶瓷电容器(MLCC)内部裂纹的形成是一个重要的问题。本文将描述焊接在pcb上的mlcc的四点弯曲实验。实验设计考虑了现有的MLCC部件鉴定试验。基于这些考虑,设计了一种能够通过原位电容测量来检测裂纹事件的试样。为了制作样品,选择了MLCC 1206和MLCC 1812两种类型的电容器。两者均由X7R BaTiO3陶瓷介电材料制成。衬底由1.6毫米厚的f4pcb条纹组成,其宽度与电容器相同。电容器采用SnPbAg2、SnAg0.3Cu0.7和SnAg3.8Cu0.7焊料合金进行焊接。测试后,对所有样品进行金相分析,用光学显微镜分析电容器陶瓷体内的裂纹。本文将介绍这些微观研究的结果,关于在测试样品的显微切片中发现的裂纹形状。将讨论裂纹形状与所采用的电容器几何形状和所使用的焊料合金的关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Flex Cracking of Multilayer Ceramic Capacitors: Experiments on Fracture Propagation
Cracking of the brittle X7R BaTiO3 ceramic dielectric material is a severe problem in areas where large sized multilayer ceramic capacitors (MLCC) are needed to provide larger capacities or higher dielectric strength for high voltage applications. Therefore the understanding of the crack formation within multilayer ceramic capacitors (MLCC) is an important issue. The paper will describe four-point-bending experiment on MLCCs, which were soldered on a pcb. The experimental design considered existing tests for the qualification of MLCC components. Basing on these considerations a specimen was designed that is able to detect the crack event via an in situ capacitance measurement. For the fabrication of the specimens two types of capacitors were chosen: MLCC 1206 and MLCC 1812. Both were made from an X7R BaTiO3 ceramic dielectric material. The substrate consisted on a 1.6 mm thick FR 4 pcb stripe having the same width as the capacitors. The capacitors were soldered using SnPbAg2, SnAg0.3Cu0.7 and SnAg3.8Cu0.7 solder alloys. After testing all samples were metallographically prepared, to analyze the cracks within the ceramic body of the capacitor by light microscopy. The paper will present the results of these microscopic studies, with regard to the crack shape that was found in the microsections of the tested specimens. The dependence of crack shape on the employed capacitor geometry and on the used solder alloy will be discussed.
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