Construction Mechanics
Original article
DOI https://doi.org/10.24866/2227-6858/2023-1/119-140
Negrozova I., Afanasyeva I.
IRINA Yu. NEGROZOVA, Junior Researcher, irina-lanzova@mail.ru, https://orcid.org/0000-0001-8501-9306
Scientific and Educational Center for Computer Modeling of Unique Buildings, Structures and Complexes named after A.B. Zolotova
National Research Moscow State University of Civil Engineering
IRINA N. AFANASYEVA, Candidate of Engineering Sciences, Leading Calculation Engineer,
irina.n.afanasyeva@gmail.com, https://orcid.org/0000-0001-8618-3829
CJSC Research Center StaDiO
Moscow, Russia
A review of analytical and semi-empirical approaches for analysis of flutter aerodynamic instability
Abstract. Estimation of the possibility of aerodynamic instability plays one of the important roles in the design of various structures. Current paper presents an overview of existing analytical (including semi-analytical and semi-empirical) flutter models and methods for flutter limit (flutter critical velocity) estimation, which formed the basis for engineering analysis of flutter instability of structures. Analytical models of flutter are used as a part of the flutter analysis performed experimentally and/or by using numerical methods. In addition to the review of analytical and semi-empirical methods for assessing flutter instability, a brief analysis of regulatory documents (both domestic and foreign design codes) is presented. This review showed that in all the design codes considered, flutter is recognized as a dangerous and unacceptable aeroelastic phenomenon, however, no method for analyzing of this phenomenon is proposed, and only recommendations are given for assessing the possibility of flutter occurrence based on the characteristics of structures. For structures subject to flutter, a recommendation is made for additional studies of this phenomenon based on wind tunnel tests or with the help of a specialist. The review of existing analytical and semi-empirical flutter models and methods for estimating the flutter limit presented in the paper indicates the possibility and necessity of updating domestic design codes and standards in terms of flutter analysis.
Keywords: aeroelastic phenomena, aerodynamic instability, flutter, flutter limit
See the reference in English at the end of the article
For citation: Negrozova I., Afanasyeva I. A review of analytical and semi-empirical approaches for analysis of flutter aerodynamic instability. FEFU: School of Engineering Bulletin. 2023;(1):00–00. (In Russ.)