The need of micromanipulation devices has been growing rapidly during the last decades, specially in the fields of Biology and Micro-Assembly, and many solutions have been proposed to cope with the increasing demand. The present paper suggests a possible way to micromanipulating objects in various conditions, adopting MEMS technologies to develop a microgripper based on a new flexural hinge, recently patented by the Authors. The micromechanism has been modified considering results obtained through FEA. Finally, a brief description of the construction process is provided, together with some experimental activities. © 2013 IEEE.
Design, optimization and construction of MEMS-based micro grippers for cell manipulation
VEROTTI, Matteo;
2013-01-01
Abstract
The need of micromanipulation devices has been growing rapidly during the last decades, specially in the fields of Biology and Micro-Assembly, and many solutions have been proposed to cope with the increasing demand. The present paper suggests a possible way to micromanipulating objects in various conditions, adopting MEMS technologies to develop a microgripper based on a new flexural hinge, recently patented by the Authors. The micromechanism has been modified considering results obtained through FEA. Finally, a brief description of the construction process is provided, together with some experimental activities. © 2013 IEEE.
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