標題: 旋轉三維Euler梁之振動分析Free Vibration Analysis of Three Dimensional Rotating Euler beam 作者: 何其昌Chi-Chang Ho蕭國模Dr.Kuo-Mo Hsiao機械工程學系 關鍵字: 尤拉 公開日期: 2001 摘要: 旋轉三維Euler梁之振動分析 研究生：何其昌 指導教授：蕭國模 博士 國立交通大學機械工程學系碩士班 摘要 本研究主要是利用共旋轉法來推導雙對稱三維Euler旋轉梁的運動方程式，並探討三維旋轉梁振動的自然頻率。旋轉梁存在一個穩態，本文中的振動是指基於穩態的微小振動。 本文利用非線性梁理論的一致線性化、d'Alembert原理和虛功原理在旋轉元素座標上推導梁元素的節點變形力和節點慣性力。在推導過程中保留穩態變形的節點參數和其微分到二次項以及扭率的三次項，而振動部份保留節點參數和其微分到一次項。 本文利用基於牛頓法的增量迭代法求解穩態變形，並使用二分法來求取Euler旋轉梁的自然頻率。本文最後以數值例題來驗證所提數值方法的正確性和效能，並探討不同斷面、不同長度、不同轉速及不同設定角對旋轉梁自然頻率的影響，並與文獻中Timoshenko梁比較。Free Vibration Analysis of Three Dimensional Rotating Euler beam Student : Chi-Chang Ho Advisor : Dr. Kuo-Mo Hsiao Department of Mechanical Engineering National Chiao Tung University Abstract The equations of motion for the doubly symmetric three dimensional rotating Euler beam is derived using a co-rotational total Lagrangian finite element formulation combined with rotating frame method.The natural frequency of the infinitesimal free vibration of the rotating beam measured from the position of the steady-state deformation of rotating beam is investigated. Both the element deformation nodal forces and inertia nodal forces are systematically derived by consistent linearization of the fully geometrically non-linear beam theory using the d'Alembert principle and the virtual work principle in the current rotating element coordinates. The terms up to the second order of nodal parameters, their spatial derivatives, and the third order term of twist rate corresponding to the steady-state deformations are all retained. However, only the terms up to the first order of nodal parameters, and their spatial derivatives and time derivatives corresponding to the free vibration are retained. An incremental-iterative method based on the Newton-Raphson method is employed to solve the steady-state deformation. A bisection method is employed to determine natural frequencies of the rotating Euler beam. Numerical examples are studied to demonstrate the accuracy and efficiency of the proposed method and to investigate the effect of angular velocities, setting angles, cross sections and slenderness ratios of the beam on the natural frequency of the rotating beams. URI: http://140.113.39.130/cdrfb3/record/nctu/#NT900489080http://hdl.handle.net/11536/69200 顯示於類別： 畢業論文