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1)  micro-channel
微流道
1.
Numerical simulation method for gaseous flow in micro-channel with pressure boundary conditions;
基于压力边界的微流道气体流动数值模拟方法
2.
Dissipative Particle Dynamics Simulation of DNA in Micro-channel;
DNA在微流道中的耗散粒子动力学模拟
3.
Numerical Simulation of Fountain Flow for Newtonian and non-Newtonian Fluid Front in micro-channel was realized by using general Galerkin finite element method and Newton-Raphson iteration method with appropriate boundary conditions.
采用经典G a lerk in有限元法和N ew ton-R aphson迭代法,配合适当的边界条件实现了微流道中牛顿流体和剪切变稀流体前沿喷泉流动的数值仿真。
2)  micro channel
微流道
1.
The flow character of microfluid in micro channel is the significant factor in micro injection molding and microfluid control system design.
采用基于Navier-stokes运动方程开发的Moldflow MPI软件,以PMMA(聚甲基丙烯酸甲酯)材料为对象,研究圆形、半圆形、梯形、矩形和正三角形5种微流道截面形状对非等温非牛顿流体流动性能的影响。
2.
The micro abrasive jet machining(MAJM) technology was used to make micro channels on the glass.
采用微磨料气射流加工技术(MAJM),对普通硅酸盐玻璃进行微流道槽加工。
3)  microchannel
微流道
1.
Based on the kinetic theory of micro-fluidic control,the coupling equations governing the electric double layer field and the velocity field in the cross-section of rectangular microchannels are numerically solved by applying the finite element analysis method in the 2D microchannel with rough surface between two parallel plates.
基于微流控动力学理论,应用有限元分析方法求解二维平板粗糙壁面微流道模型内矩形截面双电层场和速度场的耦合控制方程。
2.
In order to study the relationship between laser processing parameters and microchannel depth,experimental research on CO2 laser micromachining PMMA microchannel was carried out through a precision experimental table.
激光直写法制造聚合物微流控芯片是一种新型微细加工技术,为了研究激光加工工艺参数与微流道深度的关系,利用实验室研制的精密实验台进行了CO2激光直写PMMA微流道实验研究。
4)  labyrinth micro-channel
微细流道
5)  microfluidic channel
微流通道
1.
Biological analysis technology based on microfluidic channel is a focus for scientists in the field of biological detection, which covers multi-disciplines such as microfabrication, biological engineering, analytical chemistry, polymer science, optical engineering and so on.
基于微流通道的生物分析技术是目前生物检测的研究热点,它涉及微细加工、生物工程、分析化学、高分子科学、光学工程等多个学科领域。
6)  micro-fluid channel
微流管道
补充资料:道-道间寻道时间
道-道间寻道时间(single track seek):  
指磁头从一磁道移动至另一磁道的时间,单位为毫秒(ms)。
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