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Flow Visualization in Artificial Porous Media from Microfluidic PMMA Devices

机译：来自微流体PMMA器件的人造多孔介质中的流动可视化

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Microfluidic polymethylmethacrylate (PMMA) devices for study of particle transport in artificial porous media were designed and microfabricated using hot embossing with a brass mold insert containing a microchannel network with eight layers. After thermal bonding to enclose the microchannel network, a process protocol was applied to successfully remove bubbles in the PMMA device. Characterization protocols were developed for study of fluorescent particle tracking, accumulation, and retention in these microfluidic chip artificial porous media. Particle accumulation and retention was observed throughout the microfluidic network domain and predominantly at the inlet section of the PMMA device due to entrance effects. Particle Image Velocimetry of the PMMA device allowed for generating velocity profiles in the chip microchannel networks.

机译：用于研究人造多孔介质中的颗粒转运的微流体聚甲基丙烯酸酯（PMMA）装置使用热压花与含有八层的微通道网络的黄铜模具插件设计和微制成。在热键合以包围微通道网络之后，应用了过程协议以在PMMA器件中成功地除去气泡。开发了表征方案，用于研究这些微流体芯片人造多孔介质中的荧光粒子跟踪，积累和保留。在整个微流体网络结构域中观察到颗粒积聚和保持，并且主要由入口效果导致PMMA器件的入口部分。 PMMA器件的粒子图像速度允许在芯片微通道网络中产生速度配置文件。

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《ASME International Mechanical Engineering Congress and Exposition 》|2012年||共8页
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D. S. Park; S. King; K. E. Thompson; C. S. Willson; D. E. Nikitopoulos;
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1. EXPERIMENTAL STUDIES OF SURFACE-DRIVEN CAPILLARY FLOW IN PMMA MICROFLUIDIC DEVICES PREPARED BY DIRECT BONDING TECHNIQUE AND PASSIVE SEPARATION OF MICROPARTICLES IN MICROFLUIDIC LABORATORY-ON-A-CHIP SYSTEMS [J] . Mukhopadhyay Subhadeep, Banerjee J. P., Mathur Ashish, Surface review and letters . 2015 ,第4期

机译：直接键合技术和被动分离微流控芯片实验室系统制备的PMMA微流控装置中表面驱动的毛细流动的实验研究
2. Robust chemical bonding of PMMA microfluidic devices to porous PETE membranes for reliable cytotoxicity testing of drugs [J] . Thao Nguyen, Jung Su Hyun, Lee Min Seok, Lab on a chip . 2019 ,第21期

机译：PMMA微流体装置对多孔皮膜的鲁棒化学键合，用于药物可靠的细胞毒性试验
3. Experimental Investigations on the Effects of Surface Modifications to Control the Surface-Driven Capillary Flow of Aqueous Working Liquids in the PMMA Microfluidic Devices [J] . Mukhopadhyay Subhadeep Advanced Science, Engineering and Medicine . 2017 ,第11期

机译：对PMMA微流体装置中水性工作液体水性工作液体表面驱动毛细血管流动的实验研究
4. Flow Visualization in Artificial Porous Media from Microfluidic PMMA Devices [C] . D. S. Park, S. King, K. E. Thompson, ASME international mechanical engineering congress and exposition;IMECE2011 . 2012

机译：来自微流体PMMA装置的人工多孔介质中的流动可视化
5. The Study of Fluids Flow-Through Porous Media Using Microfluidic Devices [D] . Guo, Feng. 2019

机译：使用微流体装置研究流体流通多孔介质
6. Nanoscale surface modifications to control capillary flow characteristics in PMMA microfluidic devices [O] . Subhadeep Mukhopadhyay, Susanta S Roy, Raechelle A DSa, 2011

机译：纳米级表面修饰可控制PMMA微流体设备中的毛细管流动特性
7. Nanoscale surface modifications to control capillary flow characteristics in PMMA microfluidic devices [O] . Subhadeep Mukhopadhyay, Susanta S Roy, Raechelle A DSa, 2011

机译：纳米级表面修饰可控制PMMA微流体设备中的毛细管流动特性
8. Virtual and Experimental Visualization of Flows in Packed Beds of Spheres Simulating Porous Media Flows [R] . Hendricks, R. C., Athavale, M. M., Lattime, S. B., 1998

机译：模拟多孔介质流的球形填充床流动的虚拟和实验可视化

Flow Visualization in Artificial Porous Media from Microfluidic PMMA Devices

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