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Finite element analysis of the random response suppression of composite panels at elevated temperatures using shape memory alloy fibers
Author(s) -
Travis L. Turner,
Zi-Rui Zhong,
Chuh Mei
Publication year - 1994
Publication title -
28th structures, structural dynamics and materials conference
Language(s) - English
Resource type - Conference proceedings
DOI - 10.2514/6.1994-1324
Subject(s) - materials science , finite element method , shape memory alloy , composite number , composite material , deflection (physics) , thermal , sma* , structural engineering , engineering , mathematics , optics , physics , combinatorics , meteorology
A feasibility study on the use of shape memory alloys (SMA) for suppression of the random response of composite panels due to acoustic loads at elevated temperatures is presented. The constitutive relations for a composite lamina with embedded SMA fibers are developed. The finite element governing equations and the solution procedures for a composite plate subjected to combined acoustic and thermal loads are presented. Solutions include: 1) Critical buckling temperature; 2) Flat panel random response; 3) Thermal postbuckling deflection; 4) Random response of a thermally buckled panel. The preliminary results demonstrate that the SMA fibers can completely eliminate the thermal postbuckling deflection and significantly reduce the random response at elevated temperatures.

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