大笑
发表于 2025-4-1 04:18:09
The Front-Tracking Method for Multiphase Flows in Microsystems: Fundamentals,ing method is based on a single-field formulation of the flow equations for the entire computational domain and so treats different phases as a single fluid with variable material properties. The effects of the surface tension are treated as body forces and added to the momentum equations as δ funct
CAND
发表于 2025-4-1 06:27:37
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harangue
发表于 2025-4-1 12:52:36
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跳脱衣舞的人
发表于 2025-4-1 15:41:44
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VOK
发表于 2025-4-1 21:10:09
AC Electrokinetic Flows,ic field are examined using a simple theoretical model that considers the relative magnitudes of dielectrophoresis, electrophoresis, AC-electroosmosis, and Brownian motion. Dominant electrokinetic forces are explained as a function of the electric field frequency, amplitude, and conductivity of the
不发音
发表于 2025-4-2 01:47:41
Scaling Fundamentals and Applications of Digital Microfluidic Microsystems,interest in droplet actuation for lab-on-a-chip applications. A hydrodynamic scaling model of droplet actuation in a EWD actuator is presented that takes into account the effects of contact angle hysteresis, drag from the filler fluid, drag from the solid walls, and change in the actuation force whi
seroma
发表于 2025-4-2 04:37:55
Microfluidic Lab-on-a-Chip Platforms: Requirements, Characteristics and Applications, platform provides a set of fluidic unit operations, which are designed for easy combination within a well-defined fabrication technology. This allows the implementation of different application-specific (bio-) chemical processes, automated by microfluidic process integration . A brief introducti
陪审团每个人
发表于 2025-4-2 08:53:09
Microfluidic Lab-on-a-Chip Devices for Biomedical Applications,cs will be reviewed first. Three types of lab-on-a-chip devices, PCR lab-on-a-chip, flow cytometer lab-on-a-chip and immunoassay lab-on-a-chip are discussed here. The working principle, key microfluidic processes and the current status of these lab-on-a-chip devices are reviewed.