Constitutive Modeling of Photostrictive Materials and Design Optimization of Microcantilevers

Media type: E-Article
Title: Constitutive Modeling of Photostrictive Materials and Design Optimization of Microcantilevers
Contributor: Quantian Luo; Liyong Tong
imprint: SAGE Publications, 2009
Published in: Journal of Intelligent Material Systems and Structures
Language: English
DOI: 10.1177/1045389x09103224
ISSN: 1045-389X; 1530-8138
Keywords: Mechanical Engineering ; General Materials Science
Origination:
Footnote:
Description: <jats:p> This article presents constitutive models for photo-induced strains in photostrictive materials and an optimal design of microcantilevers driven by light illumination. Behaviors of photo-induced strains in semiconductors and polymeric materials are reviewed first, and then new phenomenological constitutive models are developed that depict two distinctive features of photo-induced strain profile: (a) dependence on variation of light intensity which decreases with the depth measured from the illuminated surface due to light attenuation and energy absorption; and (b) anisotropy or dependence on direction of light polarization. On the basis of the constitutive modeling of photo-induced strain in wafers, design optimization of microcantilevers is then investigated for both geometrically linear and non-linear deformations. </jats:p>

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