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Surface Micromachined Polysilicon Components Containing Continuous Hinges and Microrivets Used to Realize Three-Dimensional MEMS Structures

Published online by Cambridge University Press:  15 March 2011

Edward S. Kolesar ,
Matthew D. Ruff ,
William E. Odom ,
Simon Y. Ko ,
Jeffery T. Howard ,
Peter B. Allen ,
Richard J. Wilks ,
Josh M. Wilken ,
Jorge E. Bosch  and
Noah C. Boydston
Edward S. Kolesar
Affiliation:
Texas Christian University, Department of Engineering, Box 298640, 2800 S. University Drive Fort Worth, TX 76129
Matthew D. Ruff
Affiliation:
Texas Christian University, Department of Engineering, Box 298640, 2800 S. University Drive Fort Worth, TX 76129
William E. Odom
Affiliation:
Texas Christian University, Department of Engineering, Box 298640, 2800 S. University Drive Fort Worth, TX 76129
Simon Y. Ko
Affiliation:
Texas Christian University, Department of Engineering, Box 298640, 2800 S. University Drive Fort Worth, TX 76129
Jeffery T. Howard
Affiliation:
Texas Christian University, Department of Engineering, Box 298640, 2800 S. University Drive Fort Worth, TX 76129
Peter B. Allen
Affiliation:
Texas Christian University, Department of Engineering, Box 298640, 2800 S. University Drive Fort Worth, TX 76129
Richard J. Wilks
Affiliation:
Texas Christian University, Department of Engineering, Box 298640, 2800 S. University Drive Fort Worth, TX 76129
Josh M. Wilken
Affiliation:
Texas Christian University, Department of Engineering, Box 298640, 2800 S. University Drive Fort Worth, TX 76129
Jorge E. Bosch
Affiliation:
Texas Christian University, Department of Engineering, Box 298640, 2800 S. University Drive Fort Worth, TX 76129
Noah C. Boydston
Affiliation:
Texas Christian University, Department of Engineering, Box 298640, 2800 S. University Drive Fort Worth, TX 76129
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Abstract

A new polysilicon surface micromachining technique for fabricating and assembling three- dimensional structures has been developed. Single-layer polysilicon elements and laminated polysilicon panels incorporating trapped-glass reinforcement ribs have been successfully fabri- cated on a silicon substrate with robust and continuous hinges that facilitate out-of-plane rotation and assembly. To realize a stable three-dimensional structure, one of the device's elevatable panel components is terminated with an array of open windows, and the mating rotatable element has a matched set of protruding arrowheads/microrivets with flexible barbs that readily flex to facilitate their joining and assembly. Because the arrowhead/microrivet barb tip-to-barb tip sepa- ration is larger than the opening in the mating window, the barbs flex inward as they pass through the open window and then expand to their original shape upon exiting the window, re- sulting in a permanently latched joint and a three-dimensional structure. Three novel arrow- head/microrivet designs have been micromachined to facilitate the latching process, including a simple arrowhead, a high-aspect ratio arrowhead, and a rivet-like structure with a hemispherical shaped cap and a flexible split shank.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 687: Symposium B – Materials Science of Microelectromechanical Systems (MEMS) Devices IV , 2001 , B5.1
Copyright
Copyright © Materials Research Society 2002

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