Fly's proprioception-inspired micromachined strain-sensing structure: idea, design, modeling and simulation, and comparison with experimental results

Autor: L.J. Zhang, P.J. French, J.F.V. Vincent, Dedy H. B. Wicaksono, Gregory Pandraud
Rok vydání: 2006
Předmět:
Zdroj: Journal of Physics: Conference Series, 34 (1)
ISSN: 1742-6596
1742-6588
DOI: 10.1088/1742-6596/34/1/055
Popis: A new strain-sensing structure inspired from insect's (especially the Fly) propricoception sensor is devised. The campaniform sensillum is a strain-sensing microstructure with very high sensitivity despite its small dimension (diameter ~10Pm in a relatively stiff material of insect's exocuticle (E = ~10 9 Pa). Previous work shows that the high sensitivity of this structure towards strain is due to its membrane-in-recess- and strain- concentrating-hole- features. Based on this inspiration, we built similar structure using silicon micromachining technology. Then a simple characterisation setup was devised. Here, we present briefly, finite-element modeling and simulation based on this actual sample preparation for the characterisation. As comparison and also to understand mechanical features responsible for the strain-sensitivity, we performed the modeling on different mechanical structures: bulk chunk, blind-hole, thorugh-hole, surface membrane, and membrane-in-recess. The actual experimental characterisation was performed previously using optical technique to membrane- in-recess micromachined Si structure. The FEM simulation results confirm that the bending stress and strain are concentrated in the hole-vicinity. The membrane inside the hole acts as displacement transducer. The FEM is in conformity with previous analytical results, as well as the optical characterisation result. The end goal is to build a new type MEMS strain sensor.
Databáze: OpenAIRE
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