Characterization of high fluid strain micro contractions to study the stress on biological fluids
conference contribution
posted on 2008-01-01, 00:00authored byF Tovar-Lopez, Khashayar Khoshmanesh, M Nasabi, G Rosengarten, A Mitchell
Microfluidics has the potential to enhance the understanding of the biological fluids under strain, due to the laminar nature of the fluid and the possibility to mimic the real conditions. We present advances on charaterization of a microfluidic platform to study high strain rate flows in the transport of biological fluids. These advances are improvements on the reproduction of a constant extensional strain rate using micro contractions and development of 3D numerical models. The micro geometries have been fabricated in polydimethyl siloxame (PDMS) using standard soft-lithography techniques with a photolithographically patterned mold. A comparison of some microcontractions with different funnel characteristics is presented. The Micro Particle Image Velocimetry technique has been applied to validate the numerical simulations. We demonstrate the use of microfluidics in the reproduction of a large range of controllable extensional strains that can be used in the study of the effect of flow on biological fluids.
History
Event
Biomedical Applications of Micro- and Nanoengineering IV and Complex Systems. Conference (9th : 2008 : Melbourne, Victoria)
Series
Proceedings of SPIE ; vol. 2720
Publisher
SPIE: The International Society for Optical Engineering
E1.1 Full written paper - refereed; E Conference publication
Copyright notice
2008, SPIE
Title of proceedings
SPIE 2008 : Progress in biomedical optics and imaging : Proceedings of SPIE Biomedical Applications of Micro- and Nanoengineering IV and Complex Systems conference