Since 1963
ARTICLE
Evaluation of tribological behavior of tribopairs in water hydraulic radial piston pumps with multiple coatings and lubrication
1
Graduate School, China Coal Research Institute, Beijing, China
2
Beijing Tianma Intelligent Control Technology Co., Ltd., Beijing, China
3
College of Mechanical and Electronic Engineering, Shandong University of Science and Technology, Qingdao, China
4
School of Mechanical Electronic and Information Engineering, China University of Mining and Technology-Beijing, Beijing, China
Submission date: 2024-01-11
Final revision date: 2024-05-08
Acceptance date: 2024-10-11
Online publication date: 2024-11-26
Corresponding author
Journal of Theoretical and Applied Mechanics 2024;62(4):841-854
KEYWORDS
TOPICS
ABSTRACT
In order to explore the tribological behavior of slipper/eccentric cam tribopairs under different lubrication conditions at power ends of water hydraulic radial piston pumps, friction-wear tests were carried out. It is found that tribopairs under water-based lubrication exhibited better friction-reducing performances than those under water lubrication alone. The average steady-state friction coefficient under water-based lubrication was between 0.17 and 0.23. HMn62-3-3-0.7/17-4PH tribopair using water-based lubrication exhibited the lowest wear rate of 1.1 · 10-12 mm3/N·m. The findings of this study offer a reference for the identification of potential material pairs for slipper/eccentric cam tribopairs.
REFERENCES (24)
1.
Cotter M., 2000, Rethinking the piston pump - a physicist’s convictions, World pumps, 2000, 401, 32-33.
2.
Dib J., Hereñu S., Alí D., Pellegri N., 2020, Influence of load, surface finish and lubrication on friction coefficient of AISI 304 stainless steel, Journal of Materials Engineering and Performance, 29, 5, 2739-2747.
3.
Espinosa T., Jiménez, M., Sanes J., Jiménez A.E., Iglesias M., Bermúdez M.D., 2014, Ultra-low friction with a protic ionic liquid boundary film at the water-lubricated sapphire-stainless steel interface, Tribology Letters, 53, 1-9.
4.
ISO-14242-2, 2016, Implants for surgery-wear of total hip-joint prostheses - Part 2: Methods of measurement.
5.
Kou B., Li R., Li Z., Hao R., 2022, Experimental study on the tribological properties of high water-based piston friction pairs with different ceramic materials, Advances in Mechanical Engineering, 14, 8.
6.
Li R., Wei W., Liu H., Geng X., Cui J., et al., 2024, Design and experimental validation of a valve-distributed water radial piston pump, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238, 12, 5488-5497.
7.
Li R., Wei W., Liu H., Geng X., Wang D., et al., 2023, Tribological behavior of tribo-pairs in water hydraulic radial piston pumps, Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications, 237, 7, 1603-1623.
8.
Liang Y., Wang W., Zhang Z., Xing H., Wang C., et al., 2023, Effect of material selection and surface texture on tribological properties of key friction pairs in water hydraulic axial piston pumps: A review, Lubricants, 11, 8, 324.
9.
Liu S., Yu Z., Yi D., Li Y., 2001, Chemical pretreatments of the surface of WC-15wt%Co with diamond coatings, Acta Metallurgica Sinica (English Letters), 14, 2, 143-147.
10.
Ma J., Chen J., Li J., Li Q., Ren C., 2015, Wear analysis of swash plate/slipper pair of axis piston hydraulic pump, Tribology International, 90, 467-472.
11.
Matta C., Joly-Pottuz L., De Barros Bouchet M.I., Martin J.M., Kano M., et al., 2008, Superlubricity and tribochemistry of polyhydric alcohols, Physical Review B, 78, 8, 085436.
12.
Nie S., Lou F., Ji H., Yin F., 2019, Tribological performance of CF-PEEK sliding against 17-4PH stainless steel with various cermet coatings for water hydraulic piston pump application, Coatings, 9, 7, 436.
13.
Nie S.L., Huang G.H., Li Y.P., 2006, Tribological study on hydrostatic slipper bearing with annular orifice damper for water hydraulic axial piston motor, Tribology International, 39, 11, 1342-1354.
14.
Wei L., Zhang Z., Nie S., Wu X., 2019, Direct and indirect corrosion wear performance of AISI 630 steel for the slipper/swashplate pair in a water hydraulic pump, Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 233, 10, 1605-1615.
15.
Wu H., Zhao L., Ni S., He Y., 2020, Study on friction performance and mechanism of slipper pair under different paired materials in high-pressure axial piston pump, Friction, 8, 5, 957-969.
16.
Wu Z., Zhou F., Wang Q., 2018, Friction and wear properties of CrSiCN/SiC tribopairs in water lubrication, Journal of Materials Engineering and Performance, 27, 6, 2885-2898.
17.
Yin F., He Z., Nie S., Ji H., Ma Z., 2023, Tribological properties and wear prediction of various ceramic friction pairs under seawater lubrication condition of different medium characteristics using CNN-LSTM method, Tribology International, 189, 108935.
18.
Yin F., Wang Y., Ji H., Ma Z., Nie S., 2021, Impact of sliding speed on the tribological behaviors of cermet and steel balls sliding against SiC lubricated with seawater, Tribology Letters, 69, 39.
19.
Yinshui L., Wu D., He X., Zhuangyun L., 2009, Materials screening of matching pairs in a water hydraulic piston pump, Industrial Lubrication and Tribology, 61, 3, 173-178.
20.
Zhang R., Chen Q., He Z., Xiong L., 2020, In situ friction-induced amorphous carbon or graphene at sliding interfaces: effect of loads, Applied Surface Science, 534, 146990.
21.
Zhang T., Zhang X., Chen X., Jia Y., 2017, Numerical investigation on the effect of labyrinth seal configuration on leakage, MATEC Web of Conferences, EDP Sciences, 128, 02013.
22.
Zhang Z., Nie S., Yuan S., Liao W., 2015, Comparative evaluation of tribological characteristics of CF/PEEK and CF/PTFE/graphite filled PEEK sliding against AISI630 steel for seawater hydraulic piston pumps/motors, Tribology Transactions, 58, 6, 1096-1104.
23.
Zhao S., Guo T., Yu Y., Dong P., Liu C., Chen W., 2017, Design and experimental studies of a novel double-row radial piston pump, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 231, 10, 1884-1896.
24.
Zhou F., Yue B., Wang Q., Wang X., Koshi A., Kato K., 2010, Tribological properties of a-CNx coatings sliding against SiC balls in ethylene glycol aqueous solution, Lubrication Science, 22, 6-7, 225-236.
| eISSN: | 2543-6309 |
| ISSN: | 1429-2955 |
We process personal data collected when visiting the website. The function of obtaining information about users and their behavior is carried out by voluntarily entered information in forms and saving cookies in end devices. Data, including cookies, are used to provide services, improve the user experience and to analyze the traffic in accordance with the Privacy policy. Data are also collected and processed by Google Analytics tool (more).
You can change cookies settings in your browser. Restricted use of cookies in the browser configuration may affect some functionalities of the website.
You can change cookies settings in your browser. Restricted use of cookies in the browser configuration may affect some functionalities of the website.
