@article{oai:kitami-it.repo.nii.ac.jp:00006878,
 author = {高井, 和紀 and 坂本, 弘志 and 小畑, 芳弘},
 issue = {693},
 journal = {日本機械学会論文集B編},
 month = {May},
 note = {The present study was experimentally investigated on suppression and characteristics of flow induced vibrations of rectangular prisms with various width-to-height ratios. In the previous report, the response characteristics and generation mechanism of flow-induced vibrations of rotary oscillating rectangular prisms were examined. The present report was made on the suppression of flow-induced vibrations of the rectangular prisms with rotary oscillation. As a result of previous paper, it can be seemed that the prevention of rolling up the shear layer separating from the leading edge of the rectangular prism is the most effective for suppressing flow-induced vibrations of it. In this study, we therefore attempted to prevent the rolling up of the shear layer by the following three method : placement of a small normal plate at upstream of the prism, attachment of four perforated normal plates on upper and lower side surface, and attachment of triangle fairings on front and rear surface.　Important results from the present study were that （i） the generation of low-speed and high-speed torsion flutter were completely suppressed by a normal plate placed at upstream of the prisms, (ii) the generation of vortex excitation was completely suppressed by four perforated plates attached to upper and lower side surface, （iii） the generation of low-speed and high-speed torsion flutter were completely suppressed by triangle fairing attached to front and rear surface, and（iv）vortex excitation newly generated at the different reduced velocity U_r when a normal plate orfairings was set up was completely suppressed by increasing from the threshold value of the reducedmass-damping factor C_n., application/pdf},
 pages = {1155--1162},
 title = {回転振動する矩形柱の流力振動応答特性と制御（第２報，流力振動制御）},
 volume = {70},
 year = {2004}
}