DocumentCode
446559
Title
Microfluidic dynamic system for biological fluids viscosity measurements
Author
Avram, Marioara ; Avram, Andrei ; Iliescu, Ciprian ; Manea, Elena ; Voitincu, Corneliu
Author_Institution
National Inst. for Res. & Dev. in Microtechnologies, Bucharest, Romania
Volume
1
fYear
2005
fDate
3-5 Oct. 2005
Firstpage
223
Abstract
The purpose of this research was to model, design and fabricate a microdynamic system, using a four masks silicon micromachining process and sacrificial layers technique. The measurement principle is the detection of the rotation of a micromachining polysilicon gear wheels system with external diameters of 250 μm, 200 μm, 160 μm and 3 μm thickness combine the undercut and refill technique with pin-joint bearing permitting the fabrication of bushings that can be used, for example, to elevate the rotor away from the silicon surface. The microfluidic dynamic system consists of a gear wheels system, an electromagnetic micropump and a magnetic controller. Each device is fabricated by silicon micromachining technology and tested to obtain the specific characteristics.
Keywords
biological fluid dynamics; biomedical equipment; bushings; controllers; elemental semiconductors; gears; microfluidics; micromachining; micropumps; patient diagnosis; silicon; viscosity; 100 micron; 125 micron; 80 micron; Si; biological fluids viscosity; bushings; electromagnetic micropump; magnetic controller; microfluidic dynamic system; microfluidic dynamic systems; micromachining polysilicon gear wheels system with; pin-joint bearing; sacrificial layers technique; silicon micromachining; Biological system modeling; Fluid dynamics; Gears; Microfluidics; Micromachining; Rotation measurement; Silicon; Thickness measurement; Viscosity; Wheels;
fLanguage
English
Publisher
ieee
Conference_Titel
Semiconductor Conference, 2005. CAS 2005 Proceedings. 2005 International
Print_ISBN
0-7803-9214-0
Type
conf
DOI
10.1109/SMICND.2005.1558753
Filename
1558753
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