Combined dynamic stiffness matrix and precise time integration method for transient forced vibration response analysis of beams |
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Authors: | Bin Tang |
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Affiliation: | Institute of Internal Combustion Engine, Dalian University of Technology, Dalian 116023, People''s Republic of China |
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Abstract: | A method has been developed for determining the transient response of a beam. The beam is divided into several continuous Timoshenko beam elements. The overall dynamic stiffness matrix is assembled in turn. Using Leung's equation, we derive the overall mass and stiffness matrices which are more suitable for response analysis than the overall dynamic stiffness matrix. The forced vibration of the beam is computed by the precise time integration method. Three illustrative beams are discussed to evaluate the performance of the current method. Solutions calculated by the finite element method and theoretical analysis are also enumerated for comparison. In these examples, we have found that the current method can solve the forced vibration of structures with a higher precision. |
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