Devil's attractors and chaos of a driven impact oscillator

The response of a single-degree-of-freedom oscillator that can impact a surface with prescribed harmonic motion is investigated through experimental and numerical means. The test apparatus consisted of a stainless steel cantilever beam that could collide with a voice coil shaker which was driven at

Escape and chaos phenomena are investigated in the subharmonic region of frequencies of the twin-well potential Duffing system. Approximate periodic solutions are found for low order subharmonic resonances by using a near linear perturbation method. Then first and higher order instabilities of the s

Chaotic motion of an intermittency type of the impact oscillator appears near segments of saddle-node stability boundaries of subharmonic motions with two different impacts in motion period, which is n multiple ðn P 3Þ of excitation period. Chaotic motion arises due to an additional impact, which in

Janicki and Szemplinska-Stupnicka [1], have presented approximate periodic solutions and their instabilities for low order subharmonic resonances of the twin-well potential Duffing system. They empolyed a near-linear perturbation method in their analysis. Using an improved harmonic balance technique