@article{oai:gunma-u.repo.nii.ac.jp:00003462,
 author = {永井, 健一 and 鈴木, 央 and 山口, 誉夫 and 丸山, 真一},
 issue = {679},
 journal = {日本機械学會論文集. C編},
 month = {Mar},
 note = {application/pdf, Journal Article, Analytical result is presented on chaotic oscillations of a buckled beam under an axial spring. The beam with a concentrated mass is clamped at both ends. The beam is compressed to the post-buckled configuration by the axial spring. The beam is subjected to periodic lateral acceleration. Introducing a mode shape function to a basic equation, nonlinear ordinary differential equations of multiple-degree-of-freedom system is reduced to by the Galerkin procedure. Changing a stiffness of the axial spring, an internal resonance condition of one to two is selected. First, steady-state resonance responses are calculated by the harmonic balance method. The chaotic responses are obtained by a numerical integration. The chaotic responses are examined by the Poincare projection, the maximum Lyapunov exponent and bifurcation diagrams. The chaos due to the internal resonance is easily generated by a small amplitude of excitation. As the exciting frequency decreased, transition to the chaos from a periodic response needs larger amplitude of excitation. In a lower range of frequency, the chaotic oscillations are mixed with the internal resonance and the dynamic snap buckling. Two modes of vibration contribute to the chaos related to the internal resonance. Number of the modes increases more than three for the chaos involved the dynamic snap buckling.},
 pages = {565--572},
 title = {軸弾性拘束を受ける座屈後はりのカオス振動 : 飛び移りカオス振動と内部共振の連成},
 volume = {69},
 year = {2003}
}