DYNAMIC ANALYSIS OF ELASTICALLY SUPPORTED TIMOSHENKO BEAM
DOI:
https://doi.org/10.26512/ripe.v2i34.21809Palavras-chave:
Finite element method. Timoshenko beam theory. Dynamic analysis.Resumo
The flexible beams carrying attachments and ends elastically restrained against rotational and translation inertia often appear in engineering structures, modal analysis of those structures is important and necessary in structural design. In case of structure with large aspect ratio of height and length the Timoshenko beam theory (TBT) is used, instead of the Euler-Bernoulli theory (EBT), since it takes both shear and rotary inertia into account. Shear effect is extremely large in higher vibration modes due to reduced mode half wave length. In this paper, the full development and analysis of TBT for transversely vibrations uniform beam are presented for elastically supported ends. A two-node beam element with two degree of freedom per node is obtained based upon Hamilton’s principle. The influence of stiffnesses of the supports on the free vibration characteristics is investigated. For this purpose, the eigenvalues of the Timoshenko beam are calculated for various rigidity values of translational and rotational springs. The results obtained are discussed and compared with results obtained by other researchers.
Downloads
Referências
Abbas, B. A. H, 1979. Simple finite elements for dynamic analysis of thick pre-twisted blades. Aeronautical Quaterly, vol. 83, pp.450-453.
Abbas, B. A. H., 1984. Vibrations of beams with elastically restrained end. Journal of Sound and Vibration, vol. 97, pp. 541-548.
Aristizaba-Ochoa, D. J., 2007. Tension and Compression Stability and Second-Order Analyses of Three-Dimensional Multicolumn Systems: Effects of Shear Deformations. Journal of Engineering Mechanics, vol. 133, pp. 106-116.
Chun, K. R., 1972. Free vibration of a beam with one end spring-hinged and the other free. Journal of Applied Mechanics, vol. 39, pp. 1154-1155.
Craver, L. Jr., & Jampala, P., 1993. Transverse vibrations of a linearly tapered cantilever beam with constraining springs. Journal of Sound and Vibration, vol. 166, pp. 521-529.
De Rosa, M. A., & Auciello, N. M., 1996. Free vibrations of tapered beams with exible ends. Computers & Structures, vol. 60, pp.197-202.
Downs, B., 1976. Vibration of a uniform, simply supported Timoshenko beam without transverse deflection. Journal of Applied Mechanics, vol. 43, pp. 671-674.
Grant, D. A., 1975. Vibration frequencies for a uniform beam with one end elastically supported and carrying a mass at the other end. Journal of Applied Mechanics, vol. 42, pp. 878-880.
Goel, R. P., 1976. Free vibrations of a beam-mass system with elastically restrained ends. Journal of Sound and Vibration, vol. 47, pp. 9-14.
Grossi, R. O., & Arenas, B. del V., 1996. A variational approach to the vibration of tapered beams with elastically restrained ends. Journal of Sound and Vibration, vol. 195, pp. 507-511.
Hernandez, E., Otrola, E., Rodriguez, R., & Sahueza, F., 2008. Finite element aproximation of the vibration problem for a Timoshenko curved rod. Revista de La Union Matemtica, vol. 49, pp.15 - 28.
Huang, T. C., 1961. The effect of rotatory inertia and of shear deformation on the frequency and normal mode equations of uniform beams with simple end conditions. Journal of Applied
Mechanics, vol. 28, pp. 579-584.
Kim, H. K., & Kim, M. S., 2001. Vibration of Beams with generally restrained boundary conditions using Fourier series. Journal of Sound and Vibration, vol. 245, pp. 771-784.
Kocaturk, T., & Simsek, M., 2005. Free vibration analysis of elastically supported Timoshenko beams. Journal of Engineering and Natural Sciences, vol.23 , pp. 79-93.
Lee, S. Y., & Kuo, Y. H., 1992. Exact Solutions for the Analysis of General Elastically Restrained Nonuniform Beams. Journal of Applied Mechanics, vol. 59, pp. 205-212.
Lee, T. W., 1973. Vibration frequencies for a uniform beam with one end spring-hinged and carrying a mass at the other free end. Journal of Applied Mechanics, vol. 40, pp. 813-815.
Levinson, M., & Cooke, D. W., 1982. On the two frequency spectra of Timoshenko beams. Journal of Sound and Vibration, vol. 84, pp. 319-326.
Liu, Y., & Gurram, C. S., 2009. The use of Hes variational iteration method for obtaining the free vibration of an EulerBernoulli beam. athematical and Computer Modelling, vol. 50, pp. 1545-1552.
MacBain, J. C., & Genin, 1973. Effect of support flexibility on the fundamental frequency of vibrating beams.Journal of the Franklin Institute, vol. 296, pp. 259-273.
Maurizi, M. J., & Rossr, R. E., Reyes, J. A., 1976. Vibration frequencies for a uniform beam with one end spring-hinged and subjected to a translational restraint at the other end. Sound and
Vibration, vol. 48, pp. 565-568.
Naguleswaran, S., 2004. Transverse vibration of an uniform EulerBernoulli beam under linearly varying axial force. Journal of Sound and Vibration, vol. 275, pp. 47-57.
Nassar, E. M., & Horton, W. H., 1976. Static deflection of beams subjected to elastic rotational restraints. American Institute of Aeronautics and Astronautics Journal, vol. 14, pp. 122-123.
Prasad, K. S. R. K., & Krishnamurthy, A. V., 1973. Galerkin finite element method for vibration problems. Institute of Aeronautics and Astronautics Journal, vol. 11, pp. 544-546.
Rao, G. V., & Raju, K. K., 1974. A Galerkin finite element analysis of a uniform beam carrying a concentrated mass and rotary inertia with a spring hinge. Journal of Sound and Vibration, vol. 37, pp. 567-569.
Smith, R. W. M., 2008. Graphical representation of Timoshenko beam modes for clampedclamped boundary conditions at high frequency: Beyond transverse deflection. Wave Motion, vol. 45, pp. 785-794.
Soares, A., & Hoefel, S. S., 2015. Modal analysis for free vibration of four beam theories. In Proceedings of the 23rd International Congress of Mechanical Engineering - COBEM 2015, Rio de Janeiro, Brazil.
Soares, A., & Hoefel, S. S., 2016. Analysis of rotatory inertia and shear deformation on transverse vibration of beams. In Proceedings of the IX Congresso Nacional de Engenharia Mecˆanica - CONEM 2016, Fortaleza, Brazil.
Timoshenko, S. P., 1921. On the correction for shear of the differential equation for transverse vibration of prismatic bars. Philosophical Magazine, vol. 41, pp. 744-746.
Wang, J. R., Liu, T.-L., & Chein, D-W, 2007. Free vibration analysis of a Timoshenko beam carrying multiple spring-mass systems with the effects of shear deformation and rotary inertia. Structural Engineering & Mechanic, vol. 26, pp. 1-14.
Yeih, W., Chen, J. T., & Chang, C. M., 1999. Applications of dual MRM for determining the natural frequencies and natural modes of an Euler-Bernoulli beam using the singular value decomposition method. Engineering Analysis with Boundary Elements, vol. 23, pp. 339-360.
Downloads
Publicado
Como Citar
Edição
Seção
Licença
Autores que publicam nesta revista concordam com os seguintes termos:
Autores mantém os direitos autorais e concedem à revista o direito de primeira publicação, sendo o trabalho simultaneamente licenciado sob a Creative Commons Attribution License o que permite o compartilhamento do trabalho com reconhecimento da autoria do trabalho e publicação inicial nesta revista.
Autores têm autorização para assumir contratos adicionais separadamente, para distribuição não-exclusiva da versão do trabalho publicada nesta revista (ex: publicar em repositório institucional ou como capítulo de livro), com reconhecimento de autoria e publicação inicial nesta revista.
Autores têm permissão e são estimulados a publicar e distribuir seu trabalho online (ex: em repositórios institucionais ou na sua página pessoal) a qualquer ponto antes ou durante o processo editorial, já que isso pode gerar alterações produtivas, bem como aumentar o impacto e a citação do trabalho publicado.