Research on Design of Polycrystalline Diamond Composite Pendulum Wear-Resistant Belt

Wei Wang; Jun Li; Gong Hui Liu; Chun Qing Cha

doi:10.4028/www.scientific.net/MSF.944.999

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HomeMaterials Science ForumMaterials Science Forum Vol. 944Research on Design of Polycrystalline Diamond...

Research on Design of Polycrystalline Diamond Composite Pendulum Wear-Resistant Belt

Abstract:

The torque impactor can effectively solve the stick-slip vibration of PDC bit in the deep formation, but the wear of the pendulum seriously restricted the service life of the impactor. In order to reduce the wear of the pendulum under complicated working conditions, the polycrystalline diamond composite material was used as the wear-resistant material to design the pendulum wear-resistant belt. Based on the analysis of the feasibility of using polycrystalline diamond as pendulum wear-resistant material, the finite element model of dynamic contact interaction between pendulum wear-resistant belt and impact cylinder was established, the influence of the arrangement of wear-resistant blocks on the stress of the contact area between the pendulum wear-resistant belt and the impact cylinder was studied. The results show: Polycrystalline diamond composite material has stronger wear resistance and better anti-friction performance than conventional wear-resistant materials, and can reduce the wear of the inner wall of the impact cylinder, which is feasible on the surface of the pendulum hammer. The use of the wear-resistant belt structure is beneficial to improve the variation of the shear stress of the area where the pendulum and the impact cylinder contact each other. The wear-resistant belt structure is beneficial to improve the shear stress variation amplitude of the pendulum and impact cylinder in contact with each other. When the wear-resistant block is arranged in a circular block staggered arrangement, the shear stress change amplitude of the interaction contact area is the largest, the triangular block staggered arrangement mode is second, and the trough block shape staggered arrangement is the smallest. The research results have important reference significance for the design and application of polycrystalline diamond composite pendulum wear-resistant belt.

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Periodical:

Materials Science Forum (Volume 944)

Pages:

999-1004

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.944.999

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Online since:

January 2019

Authors:

Wei Wang, Jun Li*, Gong Hui Liu, Chun Qing Cha

Keywords:

Arrangement Method, Polycrystalline Diamond, Torque Impactor, Wear-Resistant Belt

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References

[1] Feng C, Jia X, Liu S, et al. Research progress on stick-slip vibration of oil and gas well drill string[J]. Oil Field Equipment, 2016, 45(11): 78-87.