Bifurcation of a Shaft With Hysteretic-Type Internal Friction Force of Material

DING Qian; CHEN Yu-shu

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DING Qian, CHEN Yu-shu. Bifurcation of a Shaft With Hysteretic-Type Internal Friction Force of Material[J]. Applied Mathematics and Mechanics, 2003, 24(6): 565-571.

Citation:

DING Qian, CHEN Yu-shu. Bifurcation of a Shaft With Hysteretic-Type Internal Friction Force of Material[J]. Applied Mathematics and Mechanics, 2003, 24(6): 565-571.

Citation:

DING Qian, CHEN Yu-shu. Bifurcation of a Shaft With Hysteretic-Type Internal Friction Force of Material[J]. Applied Mathematics and Mechanics, 2003, 24(6): 565-571.

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Bifurcation of a Shaft With Hysteretic-Type Internal Friction Force of Material

Department of Mechanics, Tianjin University, Tianjin 300072, P. R. China

Received Date: 2002-02-01
Rev Recd Date: 2003-02-19
Publish Date: 2003-06-15

Abstract

Abstract

The bifurcation of a shaft with hysteretic internal friction of material was analysed. Firstly, the differential motion equation in complex form was deduced using Hamilton principle. Then averaged equations in primary resonances were obtained using the averaging method. The stability of steady-state responses was also determined. Lastly, the bifurcations of both normal motion (synchronous whirl) and self-excited motion(non-synchronous whirl)were investigated using the method of singularity. The study shows that by a rather large disturbance, the stability of the shaft can be lost through Hopf bifurcation in case the stability condition is not satisfied. The averaged self-excited response appears as a type of unsymmetrical bifurcation with high orders of co-dimension. The second Hopf bifurcation, which corresponds to double amplitude-modulated response, can occur as the speed of the shaft increases. Balancing the shaft carefully to decrease its unbalance level and increasing the external damping are two effective methods to avoid the appearance of the self-sustained whirl induced by the hysteretic internal friction of material.
- shaft,
- hysteretic-type internal friction of material,
- Hopf bifurcation,
- non-synchronous whirl

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References(12)

References

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