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Dynamic chemisorption and tribochemistry of α-lipoic-acid-ester on ferrous surfaces

Tribofilm formation and growth play a vital role in friction reduction and antiwear enhancement. However, our understanding at the atomic level, particularly from a tribochemical viewpoint, is limited. Here, we elucidate α-lipoic acid ester tribofilm formation on ferrous interfaces using reactive mo...

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Published in:	Tribology international 2024-04, Vol.192, p.109291, Article 109291
Main Authors:	Ruan, Xiaopeng, Wang, Xiaomei, Zhou, Rui, Zhao, Yang, Bao, Luyao, Zhou, Feng, Lu, Zhibin
Format:	Article
Language:	English
Subjects:	Tribochemistry • Tribofilm • Reactive molecular dynamics simulation • α-Lipoic acid ester
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container_title	Tribology international
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creator	Ruan, Xiaopeng Wang, Xiaomei Zhou, Rui Zhao, Yang Bao, Luyao Zhou, Feng Lu, Zhibin
description	Tribofilm formation and growth play a vital role in friction reduction and antiwear enhancement. However, our understanding at the atomic level, particularly from a tribochemical viewpoint, is limited. Here, we elucidate α-lipoic acid ester tribofilm formation on ferrous interfaces using reactive molecular dynamics simulations. Our findings uncover a sequence where chemisorbed films initially develop through Fe-S bonding, followed by decomposition (C-O, C-S bonds) and polymerization reactions (S-S, S-O bonds). Thermal and mechanical forces collaboratively facilitate this process. The kinetic analysis demonstrates elevated activation volume exhibited a negative correlation with the reaction frequency difference. Normal stress boosts reactivity by encouraging the polymerization and reducing activation energy. This work offers a comprehensive understanding of α-lipoic acid ester tribofilm formation on ferrous interfaces. •Reactions of α-lipoic acid ester on the ferrous surface were modeled.•Four basis reaction paths were found and the reaction network was built.•Activation volume exhibited a negative correlation with the total reaction frequency difference.•The normal stress promote the polymerization reaction and lowering the activation energy.
doi_str_mv	10.1016/j.triboint.2024.109291
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subjects	Tribochemistry • Tribofilm • Reactive molecular dynamics simulation • α-Lipoic acid ester
title	Dynamic chemisorption and tribochemistry of α-lipoic-acid-ester on ferrous surfaces
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