TITLE:
Stability Analysis of a SDOF Mechanical Model with Distinct Critical Points: II. Catastrophe Theory Approach
AUTHORS:
Dimitrios S. Sophianopoulos, Vasiliki S. Pantazi
KEYWORDS:
Mechanical Models, Nonlinear Stability, Critical Points, Catastrophe Theory, Butterfly Singularity
JOURNAL NAME:
World Journal of Mechanics,
Vol.5 No.12,
December
22,
2015
ABSTRACT: In a recent publication [1], the fully nonlinear stability analysis of a Single-Degree-of Freedom (SDOF) model with distinct critical points was dealt with on the basis of bifurcation theory, and it was demonstrated that this system is associated with the butterfly singularity. The present work is the companion one, tackling the problem via the Theory of Catastrophes. After Taylor expanding the original potential energy function and introducing Padè approximants of the trigonometric expression involved, the resulting truncated potential is a universal unfolding of the original one and an extended canonical form of the butterfly catastrophe potential energy function. Results in terms of equilibrium paths, bifurcation sets and manifold hyper-surface projections fully validate the whole analysis, being in excellent agreement with the findings obtained via bifurcation theory.