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A new type of vibrating centrifuge with wider frequency range is designed instead of the traditional one with a single frequency to improve the vibrating effect. With the aid of a new dynamical model, one simulation without considering the visco-elasticity of basis is presented, then the dynamical responses of time and frequency in different scheme are given. The computational results show that the improved vibrating centrifuge possesses a remarkably widened frequency range.
A new type of vibrating centrifuge with wider frequency range is designed instead of the traditional one with one single frequency to improve the vibrating effect. With the aid of a new dynamical model, one simulation without considering the visco-elasticity of the basis is presented, then the dynamical responses of time and frequency in different schemes are given. The computational results show that the improved vibrating centrifuge possesses remarkably widened frequency range.