1) Power deposition
功率沉积
1.
Power deposition of electron cyclotron waves in hot plasmas;
电子回旋波在热等离子体中的功率沉积
2.
Ray tracing method is used to calculate and superpose the power deposition of any wave packet, and the power deposition result is obtained.
用射线轨迹方法计算并叠加每一波束功率沉积 ,得到快波功率沉积的计算结果 。
3.
In this paper, the propagation of fast waves in the ion-cyclotron range of frequencies, the current drive and the power deposition in plasmas are investigated, some important results are as follows.
本文对离子回旋频段的快波在等离子体中的传播以及快波在等离子体中的功率沉积、驱动起的电流等进行了研究和计算,并得到了如下若干重要结论。
2) deposition power
沉积功率
1.
48O 3(PZT) ferroelectric thin films were deposited on LaNiO 3 coated p-Si(111) substrates by RF magnetron sputtering at low substrate temperature( T =370℃) with deposition power ranging from 60W to 120W, sequentially followed by a rapid thermal annealing(RTA) process at temperature 650℃ for 5 minutes.
结果表明 ,PZT薄膜的组分、结构和性能都与溅射沉积功率有
3) Wave power deposit profile
功率沉积剖面
4) sputter deposition power
溅射沉积功率
5) deposition rate
沉积速率
1.
Effects of technological conditions on deposition rate and structure of functional Co-B films prepared by electroless plating;
化学镀工艺对Co-B功能膜沉积速率与结构的影响
2.
Effects of deposition rate on surface topography of Ni-Cr thin film deposited by EB-PVD;
沉积速率对EB-PVD Ni-Cr薄膜表面形貌的影响
3.
Influences of process parameters on deposition rate of CVI-TaC;
工艺参数对CVI-TaC沉积速率的影响
6) deposition rate
沉积率
1.
Theoretical analysis and experimental study of particle deposition rate;
微粒污垢沉积率的理论分析与实验研究
2.
Experimental study on improving deposition rate using PWM-based intermittent spray from enlarged nozzle
用大喷头脉宽调制间歇喷雾提高沉积率的试验研究
3.
The results indicated that particle distribution was submitted to Gaussian distribution and the deposition rate was the greatest while the peak value was between -61 and +74.
对具有不同的粉末粒度分布、熔点和颗粒形貌的火焰喷焊自熔合金粉末的沉积率进行了测试分析。
补充资料:70t超高功率电弧炉(淮阴钢铁公司)
70t超高功率电弧炉(淮阴钢铁公司)
彝 70t超高功率电弧炉(淮阴钢铁公司)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条