Out of plane flexural behaviour of thin polysilicon films: mechanical characterization and application of the Weibull approach

Out of plane flexural behaviour of thin polysilicon films: mechanical characterization and application of the Weibull approach

A new MEMS for on-chip mechanical testing of 0.9 /spl mu/m thick polysilicon film has been designed, modelled and fabricated. The polysilicon film is electrostatically loaded under bending until rupture in the out of plane direction, by means of electrostatic attraction in the direction orthogonal t...

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Hauptverfasser: Cacchione, F., Corigliano, A., De Masi, B., Ferrera, M.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Atmospheric measurements
Atmospheric modeling
Electrostatics
Finite element methods
Humidity
Micromechanical devices
Substrates
Temperature
Testing
Young's modulus
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Zusammenfassung:A new MEMS for on-chip mechanical testing of 0.9 /spl mu/m thick polysilicon film has been designed, modelled and fabricated. The polysilicon film is electrostatically loaded under bending until rupture in the out of plane direction, by means of electrostatic attraction in the direction orthogonal to the substrate. This is at difference with previous works of the same authors, in which results relevant to in plane loading conditions have been presented. 3D finite element (FE) and boundary element (BE) models of the structure were used during the design and data reduction phases. Tests were carried out at room temperature and at atmospheric humidity. The measured Young modulus of the tested polysilicon was 169 /spl plusmn/ 11 GPa. Rupture stress computed after the application of Weibull theory was 5669 MPa, with a Weibull modulus m = 22.5.
DOI:10.1109/ESIME.2005.1502782