The Effect of Section Model Details on Aeroelastic Parameters
N. P. Jones, R. H. Scanlan, and L. Singh, Department of Civil Engineering, The
Johns Hopkins University, Baltimore, MD 21218-2686, USA.
P.P. Sarkar, Department of Civil Engineering, Texas Tech University, Box 41023,
Lubbock, TX 79409-1023, USA.
Abstract:
In the five decades since the flutter-induced failure of the Tacoma Narrows
bridge, understanding of the physical mechanisms at work has advanced. On the
one hand, numerical modeling capability, most notably through the finite
element method, and developments in the theory of random vibration have
contributed; on the other hand, wind tunnel modeling remains of central
importance relative to long-span bridges. The results presented herein
indicate the critical dependence of the aeroelastic behavior on even minor
details such as a deck railing. These particular observations have important
general implications for both 2-D and 3-D modeling. The paper examines a
particular problem of detail in some depth to emphasize its importance.