1.
Development and Application of Microwave Dielectric Ceramics Based on the Principle of Microwave Energy
利用微波能量原理的微波介质陶瓷应用研究
2.
Research on Microwave Power Transimission System for Micro Robot Application
面向微小型机器人的微波能量传输系统的研究
3.
Releases of Carbon,Nitrogen and Phosphorus from Sewage Sludge at Different Microwave Energy Inputs
不同微波能量输入条件下污泥中碳、氮、磷的释放特性
4.
Energy Efficiency in Microwave Drying of Rough and Brown Rice
微波干燥稻谷和糙米的能量效率(英文)
5.
COMPARISON OF MICROWAVE ENERGY ABSORPTION IN CHILDREN AND ADULTS
微波暴露下儿童与成人电磁能量吸收比较研究
6.
Fabrication of micro energy director on polymethyl methacrylate substrate for micro ultrasonic bonding
超声波键合能量引导微结构PMMA基片的制作(英文)
7.
The microwave absorbing properties of SiC fiber composites with different fiber arr engement are studied.
研究微量碳化硅纤维 /环氧树脂复合吸波材料不同排布的吸波性能。
8.
Design and Fabrication of Micro Energy Director on Microfluidic Chip for Ultrasonic Bonding;
微流控芯片超声波键合能量引导微结构设计与工艺
9.
travelling wave maser
行波微波激射器行波量子放大器
10.
Using GPR to Measure Soil Moisture Content
利用低频微波波段GPR测量土壤含水量
11.
noise figure measuring set for microwave equipment
微波噪声指数测量仪
12.
The generators then send the energy to screens that reflect the microwave beams toward Earth, where they are received by arrays of special antennas strategically placed about the globe.
随后,它把能量传送给将微波束反射回地球的屏幕,地球上装备的特殊天线可接收微波。
13.
High Performance S/C band SAW Microwave Delay Line
高性能S、C波段声表面波微波延迟线
14.
That's right. Microwaves pass right through most things, until they encounter molecules that are good absorbers of energy.
没错。微波会穿透大部分的东西,直到它们遇到很会吸收能量的分子。
15.
The power source is not microwave radiation but is either a laser beam or a charged particle beam.
能量的来源不是微波幅射,而是雷射光束或是带电粒子束。
16.
The fishnet must absorb only a tiny fraction of the radio waves to avoid being vaporized.
为了防止被蒸发,探测器只能吸收微量的无线电波。
17.
Influence on Immune Function of Quantitative Microwave Ablation for Secondary Splenomagely and Hypersplenism;
微波定量消融脾组织对脾大脾亢患者免疫功能的影响
18.
Effect of Slightly Heat USW on the Repair of Sciatic Nerve after Sciatic Nerve Injury in Rats and Its Possible Mechanisms
微热量超短波对大鼠坐骨神经损伤的修复作用及其可能机制