1) stickies-removal
脱除胶粘物和尘埃粒子
3) Dust particle
尘埃粒子
1.
Design of microscopic and counting systems for dust particles;
尘埃粒子显微计数系统的设计
2.
Auto-correction of dust particle counter;
光学尘埃粒子计数器自动校正的实现
3.
The spacetime structure and properties of dust particle;
尘埃粒子的时空结构及其性质
4) airborne particle
尘埃粒子
1.
A method for dealing with the mathematical model of airborne particle is presented based on the improved Genetic Algorithms (GAs) and the Least-squares finite element (LSFS).
提出了一种用改进的自适应遗传算法与最小二乘法相结合的方法来处理尘埃粒子的数学模型 ,从而解决了由最小二乘法带来的概率负值问题 ,也使计数器测量数据的稳定性得到了很大的提高 ,即仪器工作稳定性误差控制在 5 %以内。
2.
The large solid angle reflexive condenser, which will bring serious distribution due to its non linearity, is uesd to collect the scattering light from the single particle in the optical sensor of the airborne particle counter.
1μm激光尘埃粒子计数器光学传感器的矩形光敏区共轭成像空间滤波器。
5) dust particles
尘埃粒子
1.
The distribution of dust particles in the plasma sheath;
等离子体鞘层中尘埃粒子的分布特性
2.
Charged dust particles exist extensively in plasmas produced in space, laboratory as well as for plasma processing.
带电的尘埃粒子广泛存在于宇宙空间、实验室等离子体装置中和材料等离子体加工工艺中。
3.
Charged dust particles exist widely in space, laboratory as well as plasma processing.
带电的尘埃粒子广泛存在于宇宙空间、实验室的等离子体装置中和材料的等离子体加工等环境中。
6) airborne particles
尘埃粒子
1.
With the development of such industries as electronics, precision optical machinery processing, war industry, medical treatment, medicines and food production, it is increasingly demanded to control the airborne particles and germ particles in air.
随着电子、精密机械加工、军工、医疗、药品和食品生产等行业的发展,对空气中尘埃粒子和细菌微粒的控制要求越来越高。
补充资料:物和
1.犹人和。
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