Stability of Ni electrodes and Ni-BaTiO3 interface evolution in ultrathin BME MLCCs

机译：超薄BME MLCCS中Ni电极和Ni-BATIO3界面演化的稳定性

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Microstructural control in thin-layer multilayer ceramic capacitors (MLCC) is one of the present day challenges for maintaining an increase in capacitive volumetric efficiency. It is observed that the continuity of the Ni electrodes increases with increasing heating rate but behaves non-linearly on sintering temperature. It is proposed that an interfacial liquid alloy layer initiates when the Ni electrodes are under tension. This accelerates a stress-induced diffusion which is the key cause of the severe electrode discontinuities during heating. Kinetic and thermodynamic approaches based on the control of sintering profiles or the control of Ni-BaTiO3 interface chemistry are proposed to prevent the Ni electrode discontinuity.

机译：薄层多层陶瓷电容器（MLCC）的微观结构控制是用于维持电容体积效率的增加的本天挑战之一。观察到，Ni电极的连续性随着加热速率的增加而增加，但在烧结温度上非线性地行使。提出界面液体合金层在Ni电极处于张力时引发。这加速了应力诱导的扩散，这是加热过程中严重电极不连续性的关键原因。基于烧结谱的控制或Ni-BATIO3界面化学控制的动力学和热力学方法，以防止Ni电极不连续。

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《IEEE International Symposium on the Applications of Ferroelectrics》|2008年||共2页
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Stability of Ni electrodes and Ni-BaTiO3 interface evolution in ultrathin BME MLCCs

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