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The paper is devoted to the modeling deformation of biological cell in microfluidic microchannel devices. The background and purpos of actual research is developing mechanical model of the biological cell shell for improving simulation and design of microfluidic lab-chip diagnostic devices.
Micro fluidic system holds promise for many novel applications where rapid mixing is important and has lead to number of developments. Despite of major developments no systematic study has been carried out so far to understand the effect of flow mechanism and geometry on microfluidic mixing. This work focuses on mixing analysis of low Reynolds number (<;25) fluids in T-shape passive micro mixer...
The aspects of developing software tool for computer-aided biochemical analysis and diagnostics of living cells in portable Lab-chip equipment are discussed.
In this paper mathematical model of the basic constructions of fluidic micropump with piezoelectric actuator for design on a component level is presented. The method of eventual differences is used for solve of task for determination of displacements and tensions. Resulted results of dependences of initial characteristics from the enclosed the voltage.
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