Open AccessNonlinear Analysis of Actuation Performance of Shape Memory Alloy Composite Film Based on Silicon Substrate
Author(s) -
Shuangshuang Sun,
Xiance Jiang
Publication year - 2014
Publication title -
mathematical problems in engineering
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.262
H-Index - 62
eISSN - 1026-7077
pISSN - 1024-123X
DOI - 10.1155/2014/728950
Subject(s) - sma* , materials science , shape memory alloy , composite material , composite number , nonlinear system , silicon , deflection (physics) , substrate (aquarium) , bending , thermal , deformation (meteorology) , boundary value problem , optics , metallurgy , computer science , thermodynamics , physics , oceanography , algorithm , quantum mechanics , geology
The mechanical model of the shape memory alloy (SMA) composite film with silicon (Si) substrate was established by the method of mechanics of composite materials. The coupled action between the SMA film and Si substrate under thermal loads was analyzed by combining static equilibrium equations, geometric equations, and physical equations. The material nonlinearity of SMA and the geometric nonlinearity of bending deformation were both considered. By simulating and analyzing the actuation performance of the SMA composite film during one cooling-heating thermal cycle, it is found that the final cooling temperature, boundary condition, and the thickness of SMA film have significant effects on the actuation performance of the SMA composite film. Besides, the maximum deflection of the SMA composite film is affected obviously by the geometric nonlinearity of bending deformation when the thickness of SMA film is very large
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