THE NON-LINEAR DYNAMIC RESPONSE OF PAIRED CENTRIFUGAL PENDULUM VIBRATION ABSORBERS

Centrifugal pendulum vibration absorber (CPVA) systems are used to decrease steady state torsional vibration levels and extend operating ranges for rotating and reciprocating machinery. They are typically sized and designed for a given harmonic using the assumption that a set of identical absorbers

Centrifugal pendulum vibration absorbers are a type of tuned dynamic absorber used for the attenuation of torsional vibrations in rotating and reciprocating machines. They consist of masses that are constrained to move along speci"c paths relative to the rotational axis of the machine. Previous anal

Recent studies have demonstrated an arrangement of centrifugal pendulum vibration absorbers that is very e!ective at reducing torsional vibrations in rotating machinery. The basic system is composed of a pair of identical absorbers that are tuned to a one-half subharmonic order relative to the appli

The vibration response of a spring-mass-damper system with a parametrically excited pendulum hinged to the mass is investigated using the harmonic balance method. The approximate results are found to be fairly consistent with those obtained by the numerical calculation. The vibrating regions of the

In this paper, the system of vibration protection containing the tuned dynamic absorber is analyzed. To control the system's extraneous resonant responses without a!ecting the ability of essential linear vibration suppression at antiresonant frequency, the absolute motion of the absorber is limited

The dynamic behavior of a physical pendulum system of which the support is subjected to both rotation and vertical vibration are studied in this paper. Both analytical and computational results are employed to obtain the characteristics of the system. By using Lyapunov's direct method the conditions