1) The Scattered Property
零散性
2) viscous crude
零散
1.
The application of technology about watered viscosity reduction on hollow rod pump viscous crude production;
泵上掺水降粘工艺在零散稠油开采中的应用
3) scattering and dropping
零散坠落
1.
The techniques for preventing the curdled material of the plastic part and that in the runner from scattering and dropping after the plastic part is ejected in forming the small-sized plastic parts with the submarine gates of vertical injection moulds are introduced.
介绍了立式注射模在用潜伏式浇口成型小型塑件时 ,防止推出后塑件和流道凝料零散坠落的技术方法 ,同时还叙述了多模注射机在此类生产当中的作用与使用。
4) zero dispersion
零色散
1.
Efforts are also made to study the possibility of shifting the zero dispersion wavelength of photonic crystal fibers and designing photonic crystal fibers with ultra-fla.
探讨了利用无量纲色散方法控制光子晶体光纤零色散点和设计平坦色散光子晶体光纤的可能性 。
2.
A Galerkin′s method based numerical procedure is used to design photonic crystal fibers with zero dispersion wavelength at 800 nm.
基于Galerkin方法计算并设计了在 80 0nm处具有零色散的光子晶体光纤。
5) near-zero dispersion
近零色散
6) Velocity spread
速度零散
1.
By the nonlinear theory model of gyrotron traveling wave amplifier in which the influence of velocity spread is contained,the effect of velocity spread on the interaction between electron beam and wave for a W-band gyrotron traveling wave amplifier was studied.
通过包含速度零散影响的回旋行波管放大器的非线性理论模型,以W波段两段结构回旋行波管放大器为例,详细分析了速度零散对放大器电子注—波互作用的影响。
2.
The influences of the thickness and the velocity spread and the velocity ratio of the electron beam and the fluctuation of the magneti.
利用含电流的传输线方程 ,在考虑了诸多实际因素影响的情况下 ,对三次谐波渐变复合腔回旋管进行了自洽非线性模拟 ,计算了H51 1 H52 1 模式下三次谐波多模注波互作用 ,分析了电子注的厚度、速度零散、速度比α值及磁场波动对多模注波互作用的影
3.
The influences of the thickness and the velocity spread and the velocity ratio of the electron beam and the fluctuation of the magnetic field on the multi-mod.
本文利用含电流的传输线方程,在考虑了诸多实际因素影响的情况下,对三次谐波渐变复合腔回旋管进行了自洽非线性模拟,计算了H611-H521模式下三次谐波多模注波互作用,分析了电子注的厚度、速度零散、速度比α值及磁场波动对多模注波互作用的影响。
补充资料:连续性与非连续性(见间断性与不间断性)
连续性与非连续性(见间断性与不间断性)
continuity and discontinuity
11an父ux泊g四f“山。麻以角g、.连续性与非连续性(c。nt,n琳t:nuity一)_见间断性与不间断性。and diseo红ti-
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