Experimental Research on Wear Loss of Slipper Pair in Axial Piston Hydraulic Motor Lubricated with High Water Based Fluid

Yong Xia Gu; Zhong Ning Zhou; Fei Gao

doi:10.4028/www.scientific.net/AMR.452-453.119

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 452-453Experimental Research on Wear Loss of Slipper Pair...

Experimental Research on Wear Loss of Slipper Pair in Axial Piston Hydraulic Motor Lubricated with High Water Based Fluid

Abstract:

The slipper pairs with concaves of reasonable and unreasonable structures and without concave originally are chosen for the experiment. The experimental results show that appropriate concave distribution can improve the wear and tear condition of the slipper bottom. Under the same experimental condition, the fringe wear volume can be reduced by 28.77%, and the overall wear volume 68.72%, which is the best result.

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Periodical:

Advanced Materials Research (Volumes 452-453)

Pages:

119-123

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.452-453.119

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Online since:

January 2012

Authors:

Yong Xia Gu, Zhong Ning Zhou, Fei Gao

Keywords:

Experimental Test, High Water Based Fluid, Slipper Pair in Axial Piston Hydraulic Motor, Wear

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References

[1] Yang Huayong, Zhou Hua, Lu Yongxiang. Research Achievements and Developing Trends of Water Hydraulics. China Mechanical Engineering. 2000(12), 1430-1433.

Google Scholar

[2] Yu Yaozu, Li Zhuangyun. Design of Slipper Pad in Water Hydraulic Piston Pump. Machine Tool & Hydraulics. 2003(4), 21-23.

Google Scholar

[3] Deng Bin Liu Huanlong . Step-shallow Cavity Sliding Shoes of Water Hydraulic Axial Piston Pump. Lubrication Engineering. 2005(1), 73-75.

Google Scholar

[4] Zhuang Qianwei, Zhou Hua. Development of Experiment Rig for Lubricate Film of the Slipper-pad in Axial Piston Pumps. Machine Tool & Hydraulics. 2005(3), 113-115.

Google Scholar

[5] Deng Bin. Research and Analysis on the Characteristic of Water Hydraulic Axial Piston Pump. PhD thesis, Southwest Jiaotong University. 2004. 6.

Google Scholar

[6] Chi Changqing. Hydrodynamic Lubrication. National Defence Industry Press. 1998，29-47，446-447.

Google Scholar

[7] Eizo Urata, Technological aspects of the water hydraulics, The Proc. of the 6th Scandinavian Int. Con. on Fluid Power, SICFP'99, Tampere, Finland, 1999(5) , 21-34.

Google Scholar

[8] Wolfgang Backe, Water- or oil-; hydraulics in the future, The Proc. of the 6th Scandinavian int. Con. on Fluid Power, SICFP'99, Tampere, Finland, 1999(5), 1999, 51-65.

Google Scholar

[9] Chen Yuanling , Zhou Hua, Yang Huayong. Design for Hydrostatic Bearing of Slipper in Water Hydraulic Axial Piston Pump. Journal of Engineering Design. 2002(3), 168-170.

Google Scholar

[10] Liu Huanglong. Basic Research on the Lubrication Characteristics of Water Hydraulic Piston Pump. PhD thesis, Southwest Jiaotong University. 2008. 7.

Google Scholar