Dynamic Analysis of Large Space Structures Using Transfer Matrices and Joint Coupling Matrices |
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Authors: | Raymond J. Nagem James H. Williams Jr. |
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Affiliation: | 1. Department of Aerospace and Mechanical Engineering , Boston University , Boston, Massachusetts;2. Department of Mechanical Engineering , Massachusetts Institute of Technology , Cambridg, Massachusetts |
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Abstract: | Abstract Linear dynamic analysis of lattice structures using transfer matrices and joint coupling matrices is presented. A lattice structure is defined as a network of one-dimensional members that are connected by joints. Two examples are considered to illustrate how transfer matrices and joint coupling matrices may be used to compute natural frequencies of vibration. These two examples indicate that the transfer matrix and joint coupling matrix analysis is numerically accurate over a wide range of frequencies and becomes increasingly efficient, compared to the finite element method, as the frequency increases. Some suggestions for further improvements in computational efficiency and some comments about applicability to numerical analysis of wave propagation problems are given. |
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