二層円筒殻の粘弾性制動について
スポンサーリンク
概要
- 論文の詳細を見る
Cylindrical shell structures are used in various constructions such as water drain systems, air conditioning ducts, chemical plants and the fuselages of airplanes. Solid-borne vibrations associated with these structures have to be controlled not only from the point of view of noise radiation but also from that of fatigue. Fatigue is greatly related to the maxmum stresses caused, as well as to the frequency of occurrence. One method of eliminating large vibrational amplitudes is to coat one side of shell surface with a damping material. The pupose of the present paper is to evaluate and estimate the damping capabilities of two-layer cylindrical shells (see Fig. 1). From the practical point of view, the uncoupled five principal modes (see Fig. 2) are disscussed with respect to natural frequency and damping (logarithmic decrement). As was discussed by Oberst, the logarithmic decrements of the extensional and the bending vibrations of two-layer beams are as follows respectively: (δ/π)_<ex. >≈g_<ε2>r_εr_h, (I) (δ/π)_<bend. >≈3g_<ε2>r_εr_h(a+2r_h+4/3r_h^2 (II) provided r_εr_h<<1 and g_<ε2>r_εr_h, where g_<ε1> and g_<ε2> are the loss factors of the two layers respectively, r_<ε> is the ratio of Young's modulus and r_h is the ratio of thickness. The damping is known to be at least three times greater for the bending mode than for the extensional mode. Dampings for various modes of cylindrical shells are sometimes more complicated, because the extensional and the bending vibrations with respect to the shell layers are essentially coupled with each other. The results for different modes are as follows: 1) Torsional mode The logarithmic decrement (L. D. ) is given by the equation of the same form as eq. (I), where g_<ε2> and r_<ε> are replaced by g_<G2> and r_G, i, e. the loss factor of shear modulus and the ratio of shear modulus respectively. 2) Radial mode The breathing motion is coupled with the bending of the shell layers. For a long wavelength, L. D. is given by eq. (I). According as the wavelength becomes shorter, the damping effect increases up to the value given by eq. (II). 3) Longitudinal mode L. D. is given by eq. (I). For a very short wavelength, however, since the motion is dominantly associated with the bending of the shell layers, L. D. comes close to the value given by eq. (II). 4)Non-axially symmetric mode This is a bending motion around the axis, so that L. D. is given by eq. (II). 5) Flexural mode This as a whole is a bending motion along the axis, but an extensional motion is dominantly associated with the shell layers themselves. For a long wavelength, L. D. is given by eq. (I).
- 1968-11-30
著者
関連論文
- 高周波超音波洗浄槽の有限要素シミュレーション
- 高周波超音波洗浄ノズルの有限要素シミュレーション
- 高周波超音波洗浄槽の有限要素シミュレーション
- IIR型ニューラルネットワークの磁極形状最適化への応用
- デジタル時代のホイヘンス -音場解析のためのTLMモデルとその応用-
- 外挿法を適用した電磁力計算の精度と誤差評価-2次要素を用いた場合-
- ハイブリッド形無限要素による電磁波開領域問題の数値解析と遮へい効果への応用--軸対称場
- 電気系と機械系が結合している振動系への有限素子法の応用 : 電わい変換器を貼付した音片振動子の解析
- 二層円筒殻の粘弾性制動について
- 音声信号からの声道形状推定における音源波の影響除去とその効果
- EHD流動を利用した絶縁油用小型ポンプ
- 電界 1-I-5 EHD流動の数値シミュレーション--実験との比較による注入イオン密度の推定 (日本シミュレーション学会 第20回計算電気・電子工学シンポジウム(1999年11月25日,26日)) -- (第1日目 平成11年11月25日(木))
- 電気・機械/電気・音響変換器の数値シミュレ-ション-2-
- 電気・機械/電気・音響変換器の数値シミュレ-ション-1-
- 平成8年度秋季研究発表会
- 平成元年度秋季研究発表会
- 圧力・温度・湿度を周波数変化で測定するための振動子
- 有限素子法による電気機械フィルタの解析と設計
- つるまきばねを伝わる弾性波について
- 英国サザンプトン大学音響振動研究所
- 浮床用マットの経時変化による衝撃音しゃ断への影響
- ピッチの小さいつるまきばねの動的特性
- サンドイッチ片持はりの横振動の粘弾性制動
- バルクハウゼン効果による欠陥検出