Deformation Analysis of Stator of Opposed Biconinal Cone Screw Seawater Hydraulic Pump

Cheng Yuan Tu; Zhi Ben Gong; Xin Hua Wang; Yan Gao; Jiao Yan Cai

doi:10.4028/www.scientific.net/AMM.494-495.349

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 494-495Deformation Analysis of Stator of Opposed...

Deformation Analysis of Stator of Opposed Biconinal Cone Screw Seawater Hydraulic Pump

Abstract:

Metal cone of the screw rotor and stator rubber bushings are the two main components of the opposed biconinal cone screw hydraulic pump for the seawater. The stator rubber bushing is not only a damageable element, but also the key component deciding the service life and efficiency of the pump. Up to date, none effective method has been found for testing the deformation and enforced state of the stators rubber under the real working condition. For the general conventional screw stator with uniform internal pressure at both ends of the stator bushing enforced and deformed almost the same, as to other case when the cone screw pump stator has rubbers with different cross-sectional size and thickness at its different end, the enforcing and deforming state at different end varies differently. The stator of the opposed biconinal cone screw hydraulic pump is studied in this paper for the case when the stator is uniformly enforced, using finite element analyzing software ANSYS-Workbench , this study concluded the stress, the strain and inner-figure deformation of the screw hydraulic pump stator, the stator rubber and the stator steel thimble. Besides, the characteristics and rules of opposed biconinal cone screw hydraulic pump deformation are summarized as well.

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Periodical:

Applied Mechanics and Materials (Volumes 494-495)

Pages:

349-353

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.494-495.349

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Online since:

February 2014

Authors:

Cheng Yuan Tu*, Zhi Ben Gong, Xin Hua Wang, Yan Gao, Jiao Yan Cai

Keywords:

Deformation, Finite Element, Opposed Biconical, Stator, Stator Rubber

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* - Corresponding Author

References

[1] Zhao Jisong, Yang Shudong, Pilot study about the contaminant sensitivity of seawater hydraulic pumps,. Hydraulic and Pneumatic, Vol 4, pp.68-70, 2005(In Chinese).

Google Scholar

[2] Nie Songlin, Liu Yinshui, Yu Zuyao, Li Zhuangyun, Development of an underwater tool system driven by seawater hydraulics,. The Ocean Engineering, Vol 22, pp.87-91, August 2004(2) (In Chinese).

Google Scholar

[3] Yang Shudong, Li Anyua, Tao Aihua, Development of a high pressure seawater hydraulic pump lubricated with seawater,. Hydraulic and Pneumatic, pp.15-17, 2007(10) (In Chinese).

Google Scholar

[4] Cao Xuepeng, Wang Xiaojuan, Deng Bin, Ke Jian, The development status and key techniques of deep-sea hydraulic power source,. Marine Science Bulletin, vol 29, pp.466-471, August 2010(4) (In Chinese).

Google Scholar

[5] Tao Aihua, Yang Shudong, Yu Zuyao, Li Zhuangyun, Simulation of the seawater hydraulic powered underwater operation tools system,. Machine Tool and Hydraulics, pp.189-191, 2003(2) (In Chinese).

Google Scholar

[6] Yeoh O H, Some Forms of the Stain Energy Function for Rubber,. Rubber Chemstry and Technology, 1993, 66: p.754~771.

DOI: 10.5254/1.3538343

Google Scholar