Abstract
The nonlinear dynamic behaviors induced by piecewise-type nonlinearities generally reflect super- and sub-harmonic responses. Various inferences can be drawn from the stability conditions observed in nonlinear dynamic behaviors, especially when they are projected in physical motions. This study aimed to investigate nonlinear dynamic characteristics with respect to variational stability conditions. To this end, the harmonic balance method was first implemented by employing Hill’s method, and the time histories under stable and unstable conditions were examined using a numerical simulation. Second, the super- and sub-harmonic responses were investigated according to frequency upsweeping based on the arc-length continuation method. While the stability conditions vary along the arc length, the bifurcation phenomena also show various characteristics depending on their stable or unstable status. Thus, the study findings indicate that, to determine the various stability conditions along the direction of the arc length, it is fairly reasonable to determine nonlinear dynamic behaviors such as period-doubling, period-doubling cascade, and quasi-periodic (or chaotic) responses. Overall, this study suggests analytical and numerical methods to understand the super- and sub-harmonic responses by comparing the arc length of solutions with the variational stability conditions.
Highlights
The nonlinear dynamic behaviors induced by piecewise-type nonlinearities generally reflect superand sub-harmonic responses
To advance the existing pool of knowledge based on the harmonic balance method (HBM) and its relevant techniques, this study suggests a method to investigate the nonlinear dynamic characteristics that occur in the super- and sub-harmonic regimes, which mostly focus on the analysis of the stability conditions along the arc-length direction under the frequency upsweeping condition
This study focuses on frequency upsweeping conditions to examine the nonlinear dynamic characteristics
Summary
HN (or H(i)) is the Nth (or ith) stage of hysteresis (with subscript N or i), and THp(i) (or THn(i)) is the positive (or negative) side of the clutch torque induced by hysteresis at the ith stage (with subscript p or n). Regime (D) shows a large number of periodic circles, where chaotic motions are expected 10, 11, 12 and 13 are compared in a bifurcation diagram, as shown, the strong relationship between the dynamic behaviors and stability conditions is evident, which was examined previously for the super-harmonic area.
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