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Advances in Manufacturing
Published in: Advances in Manufacturing 1/2013

01-03-2013

Technology of self-repairing and reinforcement of metal worn surface

Authors: Yi Xu, Fei Gao, Bo Zhang, Feng Nan, Bin-Shi Xu

Published in: Advances in Manufacturing | Issue 1/2013

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Abstract

Researches on self-repairing material (serpentine phyllosilicate) of our team in the past few years, such as ultrafining treatment, surface modification, self-repairing mechanism, the effect of rare metal on the self-repairing performance of serpentine, were introduced summarily. The phyllosilicate of serpentine shows excellent tribological and self-repairing performance for metal worn surface as additive in lubricant.
previous article Research on automatic high velocity arc spraying technique and metastable coating materials

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Literature
1.
Shu SJ (1992) Wear of metals. Metallurgy Industrial Press, Beijing
2.
Xu BS (2004) Nano surface engineering. Chemical Industry Press, Beijing
3.
Yang H, Li SH, Jin YS (2005) Study on tribological behavior of Mg6Si4O10(OH)8 additive package with steel tribo-pair. Tribology 25(4):308–311
4.
Jin YS, Li SH, Zhang ZY et al (2004) In situ mechanochemical reconditioning of worn ferrous surfaces. Tribol Int 37(7):561–567CrossRef
5.
Zhang B, Xu Y, Zhang BS et al (2011) Tribological performance research of micro-nano serpentine powders addictive to lubricant oil. Adv Mater Res 154(155):220–225
6.
Gao F, Xu Y, Xu BS et al (2011) Study on self-repairing performance and formation mechanism of self-repairing layer of natural serpentine powder as a lubricating oil additive. Tribology 31:431–438
7.
Zhang BS, Xu Y, Gao F et al (2011) Sliding friction and wear behaviors of surface-coated natural serpentine mineral powders as lubricant additive. Appl Surf Sci 257:2540–2549CrossRef
8.
Zhang BS, Xu Y, Xu BS et al (2011) The self-reconditioning effect of the phyllosilicate lubricating material on Fe-based tribopairs. J Funct Mater 42(7):1301–1308
9.
Zhang BS (2011) Preparation of self-reconditioning materials based on metastable serpentine mineral and investigation on their tribology mechanisms. Dissertation, Shanghai Jiao Tong University
10.
Zhang BS, Xu BS, Xu Y et al (2011) Cu nanoparticles effect on the tribological properties of hydrosilicate powders as lubricant additive for steel–steel contacts. Tribol Int 44:878–886CrossRef
11.
Xu Y, Zhang BS, Xu BS et al (2011) Thermodynamic characteristics and tribological properties of lanthanum/serpentine composite lubricating material. Mater Sci Eng Powder Metall 16(3):349–354
12.
Zhang B, Xu Y, Gao F et al (2011) Tribological characteristics and self-repairing effect of hydroxy-magnesium silicate on various surface roughness friction pairs. J Cent South Univ Technol 18(5):1326–1333CrossRef
Metadata
Title
Technology of self-repairing and reinforcement of metal worn surface
Authors
Yi Xu
Fei Gao
Bo Zhang
Feng Nan
Bin-Shi Xu
Publication date
01-03-2013
Publisher
Shanghai University
Published in
Advances in Manufacturing / Issue 1/2013
Print ISSN: 2095-3127
Electronic ISSN: 2195-3597
DOI
https://doi.org/10.1007/s40436-013-0009-2

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