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Materials selection for microfabricated electrostatic actuators

Materials selection for microfabricated electrostatic actuators
Materials selection for microfabricated electrostatic actuators
Microfabricated electrostatic actuators are employed in a wide variety of microelectromechanical systems (MEMS) for applications ranging from relays and switches to valves and displays. The rapid expansion of the set of materials available to MEMS designers motivates the need for a systematic and rational approach toward the selection of materials for electrostatic actuators. We apply the Ashby methodology to accomplish such a selection. The primary performance and reliability metrics considered are the actuation voltage, speed of actuation, stroke (or displacement), actuation force, stored energy, electrical resistivity, mechanical quality factor, and resistance to fracture, fatigue, shock, and stiction. The materials properties governing these parameters are the Young’s modulus, density, fracture strength, intrinsic residual stress, resistivity, and intrinsic material damping. Materials indices are formulated by appropriate combination of these properties and a graphical procedure for materials selection is presented. Our analysis suggests that diamond, alumina, silicon carbide, silicon nitride, and silicon are excellent candidates for high-speed, high-force actuators; polymers for large-displacement, low actuation-voltage devices; and aluminum for low-electrical resistivity, low actuation-voltage and high-speed actuators. The properties of composite actuator structures are briefly discussed.
design, materials selection, electrostatic actuators, actuation voltage, actuation speed, reliability
0924-4247
279-285
Srikar, V.T.
168310a0-86f6-405e-8b9f-5c995cb5f238
Spearing, S.M.
9e56a7b3-e0e8-47b1-a6b4-db676ed3c17a
Srikar, V.T.
168310a0-86f6-405e-8b9f-5c995cb5f238
Spearing, S.M.
9e56a7b3-e0e8-47b1-a6b4-db676ed3c17a

Srikar, V.T. and Spearing, S.M. (2003) Materials selection for microfabricated electrostatic actuators. Sensors and Actuators A: Physical, 102 (3), 279-285. (doi:10.1016/S0924-4247(02)00393-X).

Record type: Article

Abstract

Microfabricated electrostatic actuators are employed in a wide variety of microelectromechanical systems (MEMS) for applications ranging from relays and switches to valves and displays. The rapid expansion of the set of materials available to MEMS designers motivates the need for a systematic and rational approach toward the selection of materials for electrostatic actuators. We apply the Ashby methodology to accomplish such a selection. The primary performance and reliability metrics considered are the actuation voltage, speed of actuation, stroke (or displacement), actuation force, stored energy, electrical resistivity, mechanical quality factor, and resistance to fracture, fatigue, shock, and stiction. The materials properties governing these parameters are the Young’s modulus, density, fracture strength, intrinsic residual stress, resistivity, and intrinsic material damping. Materials indices are formulated by appropriate combination of these properties and a graphical procedure for materials selection is presented. Our analysis suggests that diamond, alumina, silicon carbide, silicon nitride, and silicon are excellent candidates for high-speed, high-force actuators; polymers for large-displacement, low actuation-voltage devices; and aluminum for low-electrical resistivity, low actuation-voltage and high-speed actuators. The properties of composite actuator structures are briefly discussed.

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Published date: 2003
Keywords: design, materials selection, electrostatic actuators, actuation voltage, actuation speed, reliability
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Identifiers

Local EPrints ID: 22859
URI: http://eprints.soton.ac.uk/id/eprint/22859
DOI: doi:10.1016/S0924-4247(02)00393-X
ISSN: 0924-4247
PURE UUID: 0b924207-2254-4d95-98e8-2329d2e3bff8
ORCID for S.M. Spearing: ORCID iD orcid.org/0000-0002-3059-2014

Catalogue record

Date deposited: 10 Mar 2006
Last modified: 16 Mar 2024 03:37

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Author: V.T. Srikar
Author: S.M. Spearing ORCID iD

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