Friction reactions induced by selective hydrogenation of textured surface under lubricant conditions

Authors
Du, NaizhouWei, XubingLi, XiaoweiChen, ZanLu, ShiqiDing, JiaqingFeng, CunaoChen, KaiQiao, JianghaoZhang, DekunLee, Kwang-RyeolZhang, Tiancai
Issue Date
2024-01
Publisher
Springer International Publishing AG
Citation
Friction, v.12, no.1, pp.174 - 184
Abstract
The passivation of hydrogen atoms and the conformation of textured surfaces under oil-lubricated conditions are effective strategies to obtain amorphous carbon (a-C) films with extremely low friction. It is critical to understanding the influence mechanism of selective surface hydrogenation on the tribological behaviors of textured a-C film under oil-lubricated conditions. In particular, the interactions of hydrogen atoms and lubricants are confusing, which is enslaved to the in situ characterization technique. The reactive molecular dynamics (RMD) simulations were conducted to analyze the friction response of textured a-C films with selective hydrogenation surfaces under oil-lubricated conditions. The results indicate that the existence of hydrogen atoms on specific bump sites significantly decreases the friction coefficient (mu) of textured a-C film, which is highly dependent on the surface hydrogen content. The repulsion between hydrogen atoms and lubricant molecules prompts the formation of a dense lubricant film on the surface of the mating material. Interestingly, with the enhancement of the surface hydrogen content, the passivation of the friction interface and the repulsion between hydrogen atoms and lubricants play dominant roles in reducing the friction coefficient instead of hydrodynamic lubrication.
Keywords
AMORPHOUS-CARBON FILMS; MOLECULAR-DYNAMICS; TRIBOLOGICAL PERFORMANCE; INSIGHTS; DEPENDENCE; MECHANISM; BEHAVIOR; MEMS; textured amorphous carbon (a-C); selective hydrogenation; oil lubrication; friction mechanism; reactive molecular dynamics (RMD)
ISSN
2223-7690
URI
https://pubs.kist.re.kr/handle/201004/112990
DOI
10.1007/s40544-023-0772-4
Appears in Collections:
KIST Article > 2024
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