Slow Effects of Fast Excitation and Friction B. F. Feeny, Michigan State University

Sep 05, 2014

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Slow Effects of Fast Excitation and Friction B. F. Feeny, Michigan State University. 1. Frictionally Excited Beam. Poincare section return map, x(n+h) vs. x(n). W. W = 45.2 Hz. W = 45.6 Hz. w. w = 0.44 Hz. w = 0.6 Hz. Poincare section history, x(n) vs. t. High-frequency input

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Slow Effects of Fast Excitation and Friction B. F. Feeny, Michigan State University

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Slow Effects of Fast Excitation and Friction B. F. Feeny, Michigan State University 1. Frictionally Excited Beam Poincare section return map, x(n+h) vs. x(n) W W = 45.2 Hz W = 45.6 Hz w w = 0.44 Hz w = 0.6 Hz Poincare section history, x(n) vs. t High-frequency input Low-frequency response (W/w > 100 possible)
2. Dither Quenching (with Moon) Excitation a(t) = Acos(wt) + Bcos(Wt+f) w = 3.625 Hz W = 700 Hz High-frequency input, low-frequency removed Dither Off: Chaos Dither On: Regular Friction Smoothening w w dB dB 20 Hz 20 Hz Hz Hz