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Solid Mechanics and its Applications

Aeroelastic Models Design/Experiment and Correlation with New Theory

Publication ,  Chapter
Tang, D; Dowell, EH
January 1, 2022

Several examples of experimental model designs, wind tunnel tests and correlation with new theory are presented in this chapter. The goal is not only to evaluate a new theory, new computational method or new aeroelastic phonomenon, but also to provide new insights into nonlinear aeroelastic phenomena, flutter, limit cycle oscillation (LCO), gust response and energy harvesting from a large flapping flag response. The experiments are conducted in a standard low speed wind tunnel. Similar experiments in a high speed wind tunnel would be very valuable.

Duke Scholars

DOI

Publication Date

January 1, 2022

Volume

264

Start / End Page

663 / 715
 

Citation

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Tang, D., & Dowell, E. H. (2022). Aeroelastic Models Design/Experiment and Correlation with New Theory. In Solid Mechanics and its Applications (Vol. 264, pp. 663–715). https://doi.org/10.1007/978-3-030-74236-2_15
Tang, D., and E. H. Dowell. “Aeroelastic Models Design/Experiment and Correlation with New Theory.” In Solid Mechanics and Its Applications, 264:663–715, 2022. https://doi.org/10.1007/978-3-030-74236-2_15.
Tang D, Dowell EH. Aeroelastic Models Design/Experiment and Correlation with New Theory. In: Solid Mechanics and its Applications. 2022. p. 663–715.
Tang, D., and E. H. Dowell. “Aeroelastic Models Design/Experiment and Correlation with New Theory.” Solid Mechanics and Its Applications, vol. 264, 2022, pp. 663–715. Scopus, doi:10.1007/978-3-030-74236-2_15.
Tang D, Dowell EH. Aeroelastic Models Design/Experiment and Correlation with New Theory. Solid Mechanics and its Applications. 2022. p. 663–715.

DOI

Publication Date

January 1, 2022

Volume

264

Start / End Page

663 / 715