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Structural Engineering and Mechanics Volume 4, Number 5, September 1996 , pages 553-568 DOI: https://doi.org/10.12989/sem.1996.4.5.553 |
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Exact calculation of natural frequencies of repetitive structures |
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Williams FW, Kennedy D, Wu GF, Zhou JQ
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| Abstract | ||
| Finite element stiffness matrix methods are presented for finding natural frequencies (or buckling loads) and modes of repetitive structures. The usual approximate finite element formulations are included, but more relevantly they also permit the use of \'exact finite elements\', which account for distributed mass exactly by solving appropriate differential equations, A transcendental eigenvalue problem results, for which all the natural frequencies are found with certainty. The calculations are performed for a single repeating portion of a rotationally or linearly (in one, two or three directions) repetitive structure. The emphasis is on rotational periodicity, for which principal advantages include: any repeating portions can be connected together, not just adjacent ones; nodes can lie on, and members along, the axis of rotational periodicity; complex arithmetic is used for brevity of presentation and speed of computation; two types of rotationally periodic substructures can be used in a multi-level manner; multi-level non-periodic substructuring is permitted within the repeating portions of parent rotationally periodic structures or substructures and; all the substructuring is exact, i.e., the same answers are obtained whether or not substructuring is used. Numerical results are given for a rotationally periodic structure by using exact finite elements and two levels of rotationally periodic substructures. The solution time is about 500 times faster than if none of the rotational periodicity had been used. The solution time would have been about ten times faster still if the software used had included all the substructuring features presented. | ||
| Key Words | ||
| vibration, natural frequencies, space frames, periodic structures, multi-level substructuring | ||
| Address | ||
| Williams FW, UNIV WALES COLL CARDIFF,SCH ENGN,DIV STRUCT ENGN,CARDIFF CF2 1XH,S GLAM,WALES | ||