文章主要介绍氮化铝陶瓷基片生产的关键技术。
The technology of AlN ceramic substrate volume production is introduced in this paper.
利用融盐热歧化反应进行了氮化铝陶瓷表面钛金属化沉积的动力学研究。
The kinetics of titanium deposition on AlN ceramic surface by heat disproportional reaction was studied.
该方法主要包括三个部分:(1)利用放电等离子烧结技术实现氮化铝陶瓷的较低温度烧结;
The method comprises: (1) sintering aluminum nitride ceramic at a low temperature by plasma-discharging sintering;
可用于海洋敏感器件封装的氮化铝陶瓷材料具有高的热导率特性,本文对它的热导率进行了实验研究。
AIN ceramic material with high thermal conductivity, it can be used as the enclosure material for sea temperature sensor.
多层共烧氮化铝陶瓷是采用厚膜印刷的方式将多层的电路金属化做入氮化铝基板并在特定气氛中高温烧结的一种高性能陶瓷。
Multilayer co-fired AlN ceramic is a type of high performance ceramic that is printed in thick film to form multilayer circuit and fired in a certain atmosphere in high temperature.
本发明结合了放电等离子烧结和分步 烧结的方法,解决了金属铜和氮化铝陶瓷之间的结合困难问题,也实现了高温差、高不相容性梯度复合材料的制备。
The method solves the problem of poor bonding between Cu and aluminum nitride ceramic, and can realize preparation of gradient composite with high temperature difference and poor compatibility.
氮化铝是很有应用前景的功能陶瓷。
本发明提供即使是像氮化铝那样介质损耗因数极小的陶瓷也高效且牢固地接合的方法。
Provided is a method of efficiently and strongly joining ceramics even when they are ceramics of extremely low dielectric loss factor, such as aluminum nitride.
本发明提供即使是像氮化铝那样介质损耗因数极小的陶瓷也高效且牢固地接合的方法。
Provided is a method of efficiently and strongly joining ceramics even when they are ceramics of extremely low dielectric loss factor, such as aluminum nitride.
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