Stability and nonlinear dynamic behavior of drilling shaft system in copper stave deep hole drilling

Ling-fei Kong , Yan Li , Yan-jun Lü , De-xin Li , Shu-juan Li , Ao-fei Tang

Journal of Central South University ›› 2009, Vol. 16 ›› Issue (3) : 451 -457.

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Journal of Central South University ›› 2009, Vol. 16 ›› Issue (3) : 451 -457. DOI: 10.1007/s11771-009-0076-5
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Stability and nonlinear dynamic behavior of drilling shaft system in copper stave deep hole drilling

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Abstract

The stability and nonlinear dynamic behavior of drilling shaft system in copper stave deep hole drilling were analyzed. The effects of the fluctuation of the cutting force, the mass eccentricity and the hydrodynamic forces of cutting fluid could be taken into consideration in the model of drilling shaft system. Based on the isoparametric finite element method, the variational form of Reynolds equation in hydrodynamic fluid was used to calculate nonlinear hydrodynamic forces and their Jacobian matrices simultaneously. In the stability analysis, a new shooting method for rapidly determining the periodic orbit of the nonlinear drilling shaft system and its period was presented by rebuilding the traditional shooting method and changing the time scale. Through the combination of theories with experiment, the correctness and effectiveness of the above methods are verified by using the Floquet theory. The results show that the mass eccentricity can inhibit the whirling motion of drilling shaft to some extent.

Keywords

copper stave / deep hole drilling / drilling shaft / nonlinearity / bifurcation

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Ling-fei Kong, Yan Li, Yan-jun Lü, De-xin Li, Shu-juan Li, Ao-fei Tang. Stability and nonlinear dynamic behavior of drilling shaft system in copper stave deep hole drilling. Journal of Central South University, 2009, 16(3): 451-457 DOI:10.1007/s11771-009-0076-5

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