Methodology for Selection of Optimum Light Stringers in Functionally Graded Panels Designed for Prescribed Fundamental Frequency or Buckling Load
Abstract
The interest to functionally graded materials (FGM) and structures has been generated by their potential advantages, including enhanced thermal properties, reduced or eliminated delamination concerns, a potential for an improved stress distribution, etc. Various aspects of the processing, design, micromechanics and analysis of FGM have been outlined in a number of reviews, mentioned here are [1-3]. in particular, functionally graded panels may be advantageous compared to their conventional counterparts in numerous applications. However, a typical FGM panel is asymmetric about its middle plane resulting in lower buckling loads and fundamental frequencies as well as higher stresses and deformations than the counterpart with a symmetric distribution of the same constituents. the reduced stiffness of FGM panels can be compensated by reinforcing them with stringers. for example, metallic stringers at the metal-rich surface of a FGM ceramic-metal panel may provide an efficient solution enabling a designer to increase both buckling loads as well as natural frequencies. the list of studies on optimization of FGM is extensive as could be anticipated for such tailored structural elements. for example, recent papers by Batra and his collaborators present optimization of the natural frequencies of a FGM plate through material grading [4] and through the graded fiber orientation [5]. the present paper is concerned with an optimum design of the system of stringers for a specified FGM panel. the task is to design the lightest system of stringers enabling the panel to achieve prescribed buckling loads or fundamental frequency. © 2008 American Institute of Physics.
Recommended Citation
V. Birman and L. W. Byrd, "Methodology for Selection of Optimum Light Stringers in Functionally Graded Panels Designed for Prescribed Fundamental Frequency or Buckling Load," AIP Conference Proceedings, vol. 973, pp. 371 - 376, American Institute of Physics, Mar 2008.
The definitive version is available at https://doi.org/10.1063/1.2896806
Department(s)
Mechanical and Aerospace Engineering
Keywords and Phrases
Buckling; Functionally graded material; Optimized stiffened panel; Vibration
International Standard Book Number (ISBN)
978-073540492-2
International Standard Serial Number (ISSN)
1551-7616; 0094-243X
Document Type
Article - Conference proceedings
Document Version
Citation
File Type
text
Language(s)
English
Rights
© 2024 American Institute of Physics, All rights reserved.
Publication Date
13 Mar 2008