| 1. | Fabrication and optimization of shear - stress sensor in the microchannel
微管道内剪应力传感器的研制与优化 |
| 2. | Fabrication and gas flow characteristics analysis of micro diffuser nozzles
变截面微管道的制作与气体流动特性分析 |
| 3. | Flow characteristics of non - polar organic liquids with small molecules in a microchannel
非极性小分子有机液体在微管道中的流量特性 |
| 4. | The stability and possibility of the micro robot moving in pipe are affirmed in theory
从理论上确认了微管道机器人管内运动的可能性和稳定性。 |
| 5. | Micro stereolithography , a kind of rapid prototyping techniques is introduced firstly in this paper
本文首先针对微管道的制造问题,介绍了一种快速成型工艺? ?微立体光刻工艺。 |
| 6. | To enter . the above micro - pipe mostly scathes inner pipe wall based on its friction locomotion mechanism
但是,微管道机器人多是利用摩擦机理运动,存在易损坏管道内壁等缺陷。 |
| 7. | Numerical simulations were carried out to investigate the effects of the ratio of surface to volume on the two phenomena
并研究了微管道表面积与体积之比值对亚堵塞临界压比的影响。 |
| 8. | So it is very significant to investigate the flow characteristics in microchannels on both theoretical researches and applications
因此对微管道内流动特性的研究有着重要的理论价值和实际意义。 |
| 9. | ( 4 ) the micro pipe robot is controlled by fuzzy neural networks , to achieve the self - determination control of the robot
( 4 )将模糊神经网络技术用于微管道机器人的控制,以实现微管道机器人的自主控制。 |
| 10. | The electrophoretic microchip fabricated by mems technology is successfully used to finish the electrophoresis process
摘要微芯片电泳是基于微机电加工技木( mems )工艺,在芯片上的微管道中完成电泳检测过程的新型技术。 |
