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- Title
Thermoelastic properties of micron-size actuators based on the TiNiCu//Pt composite with shape-memory effect.
- Authors
Mazaev, P.; Koledov, V.; Shavrov, V.; Lega, P.; Mashirov, A.; Kamantsev, A.; Kuchin, D.; Kolesov, D.; Yaminskii, I.; Zakharov, D.; Dikan, V.; Irzhak, A.
- Abstract
Thermomechanical properties of microactuators with shape-memory effect (SME) based on the TiNiCu/Pt layered composite are analyzed. Atomic-force microscopy is used to experimentally determine rigidity of the composite microactuators that represent cantilevers with sizes of 50 × 2 × 1 μm and a thickness of the SME active alloy layer of 0.5 μm in a temperature interval of 20-100°C. Forces that are exerted by the composite actuator on a microscopic object are quantitatively estimated. The experimental data are in reasonable agreement with the calculated results.
- Subjects
THERMOMECHANICAL properties of metals; MICROACTUATORS; MICROELECTROMECHANICAL systems; FRAME synchronizers; ADAPTIVE control systems; CODE division multiple access; MULTIPLEXING; TIME division multiple access
- Publication
Journal of Communications Technology & Electronics, 2016, Vol 61, Issue 6, p630
- ISSN
1064-2269
- Publication type
Article
- DOI
10.1134/S1064226916060176