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引用次数: 8
摘要
卡尔斯鲁厄研究中心于1994年安装了一个紧凑的回旋加速器系统,用于研究毫米波在高温材料加工领域的技术应用。在完善系统设计的基础上,主要从事各类高级结构和功能陶瓷的脱脂和烧结研究。由于体积加热和增强的烧结动力学,微波的应用可以缩短加工时间,从而降低能耗。此外,微波技术为影响陶瓷材料的微观结构和物理性能提供了独特的可能性。本文将概述毫米波技术在结构陶瓷烧结方面的优势,如Al 2o3, Si 3n4,或tio2 -ZrO 2 -MgO多组分陶瓷,纳米晶氧化物陶瓷,以及PZT压电陶瓷作为最有趣的功能陶瓷之一。
At the Forschungszentrum Karlsruhe (D), a compact gyrotron system was installed in 1994 to investigate technological application in the field of high temperature materials processing using millimeter waves (mm-waves). Besides the improvement of the system design, research activities are mainly engaged in studies on debindering and sintering of various types of advanced structural and functional ceramics. Due to volumetric heating and enhanced sintering kinetics, the application of microwaves allows a shortening of the processing time, thereby reducing energy consumption. In addition, microwave technology gives the unique possibility of influencing the microstructure and physical properties of the ceramic materials. This article will give an overview of the benefits of the mm-wave technology with respect to the sintering of structural ceramics, such as Al 2 O 3 , Si 3 N 4 , or TiO 2 -ZrO 2 -MgO multicomponent ceramics, nanocrystalline oxide ceramics, as well as PZT piezoceramics as one of the most interesting classes of functional ceramics.
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