Classifications of ideal 3D elastica shapes at equilibrium
O. Ameline
,
S. Haliyo
,
X. Huang
,
J.A.H. Cognet
J. Maths Phys.,
58, 062902, 1-27,11,5
Published 29 Jun. 2017
DOI: https://doi.org/10.1063/1.4983570
Abstract
We investigate the equilibrium configurations of the ideal 3D elastica, i.e., inextensible, unshearable, isotropic, uniform, and naturally straight and prismatic rods, with linear elastic constitutive relations. Infinite solution trajectories are expressed analytically and classified in terms of only three parameters related to physical quantities. Orienta- tion of sections and mechanical loading are also well described analytically with these parameters. Detailed analysis of solution trajectories yields two main results. First, all particular trajectories are completely characterized and located in the space of these parameters. Second, a general geometric structure is exhibited for every ideal 3D elas- tic rod, where the trajectory winds around a core helix in a tube-shaped envelope. This remarkable structure leads to a classification of the general case according to three properties called chirality components. In addition, the geometry of the envelope pro- vides another characterization of the ideal 3D elastica. For both results, the domains and the frontiers of every class are plotted in the space of the parameters.
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