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Compliant Topology Optimization for Planar Passive Flap Micro Valve

Authors
Yoon, Gil Ho
Issue Date
Oct-2014
Publisher
American Scientific Publishers
Keywords
Passive Flap Structure; Topology Optimization; Fluid-Structure Interaction
Citation
Journal of Nanoscience and Nanotechnology, v.14, no.10, pp 7585 - 7591
Pages
7
Indexed
SCI
SCIE
SCOPUS
Journal Title
Journal of Nanoscience and Nanotechnology
Volume
14
Number
10
Start Page
7585
End Page
7591
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/158959
DOI
10.1166/jnn.2014.9552
ISSN
1533-4880
1533-4899
Abstract
This paper reports the compliant topology optimization for planar passive flap micro valve considering fluid-structure interaction with a monolithic approach. Although flap valve type check valve is easy to manufacture and use for the applications for Bio/Nano/MEMS, its structural optimization has been seldom conducted so far. The size of the Bio/Nano/MEMS devices becomes smaller and the simple straight type micro valve structure is required to be optimized considering fluid speed. To address this optimization problem, the structural topology optimization scheme which designs optimal topologies is applied for a flap type check valve structure. To consider the coupling effects of fluid domain and structural domain, the monolithic finite element approach is employed. In the new analysis approach, solid domain is simulated by introducing the inverse permeability in the Navier-Stokes equation and the fluid stress filter in the linear elasticity equation. Also it is a new idea that fluid domain is simulated by finite elements with a weak Young's modulus in the linear elasticity equation. The mutual couplings between fluid and structure are considered by the introduction of the deformation tensor which is one of the basic concepts of the continuum mechanism. By distributing material properties inside a design domain for compliant flap, optimal flap structures can be constructed with different fluid speeds. By investigating the optimal layouts of several passive flap designs, we prove that the structural topology optimization can provide optimal layouts for Bio, Nano, and MEMS applications.
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COLLEGE OF ENGINEERING (SCHOOL OF MECHANICAL ENGINEERING)
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