分析了复合材料微波检测中电磁参量、电磁波频率和介质薄片厚度的计算方法。
The computation methods of electromagnetism parameters, electromagnetic wave frequency and medium slice thickness in microwave measuring for composite material were analyzed.
电介质强度试验是在每对导体(包括地)之间和每个导体与包装了金属薄片的尾档之间测量。
The Dielectric Strength Test is to be performed between each pair of conductors (including ground if applicable) and between each conductor and the foil wrapped cord guard.
根据介质性能及使用期,应经常检查阀体顶部四氟密封圈和孔板部的四氟薄片。
According to media performance and the use of period and should always check the valve orifice at the top of the Ministry of PTFE seals and PTFE sheet.
提出了基于时域有限差分算法的计算无限大导体和介质薄片电磁屏蔽效能的电磁场数值计算方法。
An electromagnetic field numerical method is put forward to analyze shielding effectiveness of the infinite thin conductor and dielectric sheet based on the FDTD.
建立了薄片激光介质热力学计算模型。
The thermodynamic model for the thin-disk laser medium was established.
另一种是用高阻硅薄片覆盖在陶瓷介质波导上组成的。
Another is a ceramic dielectric waveguide covered by a silicon wafer with high resistivity.
该设备能够识别不同规格的薄片类介质上所具有的激光特征信息,可用于各种面额钞票的检测。
The equipment can identify characteristics of the laser information on the different specifications of thin dielectric and can be used for various denominations of the bank notes.
第一激光感应器和第二激光感应器之间是供薄片类介质通过的传输通道。
There is a transmission channel for slice medium between the first laser sensor and the second laser sensor and the second.
激光介质的热效应是高平均功率固体激光器面临的最大挑战,采用薄片激光介质是解决热效应的有效手段之一。
The key challenge for developing high-average power solid-state lasers is thermomechanical distortions caused by waste heat deposited in the gain medium by optical pumping.
微带天线是在带有导体接地板的介质贴片上贴加导体薄片而形成的天线。
Microstrip antennas are structured by patches printed on substrate which is added with ground plane.
微带天线是在带有导体接地板的介质贴片上贴加导体薄片而形成的天线。
Microstrip antennas are structured by patches printed on substrate which is added with ground plane.
应用推荐