Low Temperature Co fired Ceramics (LTCC) is an excellent packaging technique for achieving highly reliable and miniature microwave multichip modules (MMCM).
低温共烧陶瓷(LTCC)是实现小型化、高可靠微波多芯片组件(MMCM)的一种理想的组装技术。
Low Temperature Co-fired Ceramics (LTCC) is an excellent packaging technique for achieving highly reliable and miniature microwave multi-chip modules (MMCM).
低温共烧陶瓷(LTCC)是实现小型化、高可靠微波多芯片组件(MMCM)一种理想的组装技术。
The newly developed low loss, low dielectric constant and low temperature co fired ceramics (LTCC) materials are the best substrate for microwave MCM technology.
新开发的低损耗、低介电常数的低温共烧陶瓷(LTCC)材料最适合做微波mcm的基板材料。
Low temperature co-fired ceramics (LTCC) becomes an important packaging and interconnecting technology for realizing microwave circuit and system's miniaturization and higher density.
低温共烧陶瓷(LTCC)技术是实现微波电路与系统小型化、高密度的重要组装和互连技术。
Two high Q bandpass filters at millimeter wave band based on Substrate Integrated Waveguide(SIW) and Low Temperature Co-fired Ceramics(LTCC) are designed in this thesis, and one is realized.
本文主要讲述了基于介质集成波导(SIW)技术和LTCC工艺的毫米波频段高Q滤波器的研制。
The earliest ceramics were fired to earthenware temperatures, but as early as the fifteenth century B.C., high-temperature stonewares were being made with glazed surfaces.
最早的陶瓷制品是在制陶的温度下烧制的,但是早在公元前15世纪,(人们)已经用高温烧制表面上釉的炻器。
The article briefly narrates bursting phenomena of body and glaze appeared in ceramics external tiles quickly fired in roller hearth kiln.
简要叙述了辊道窑快速烧成陶瓷外墙砖出现的坯釉爆裂现象;
The experimental process of low-cost once-fired opaque opacified glaze for architectural ceramics has been described and the mechanism of the opaque effects of the glaze has been discussed.
介绍了一种建筑陶瓷用一次烧低成本无光釉的试制过程,探讨了釉面无光效果的形成机理。
The experimental process of low-cost once-fired opaque opacified glaze for architectural ceramics has been described and the mechanism of the opaque effects of the glaze has been discussed.
介绍了一种建筑陶瓷用一次烧低成本无光釉的试制过程,探讨了釉面无光效果的形成机理。
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