Authors
Jie Tang, Mouji Li, Yanfei Ma, Zhengfeng Ma, Shuanhong Ma, Bin Li, Zhenjun Peng, Wufang Yang, Qiangliang Yu, Pinxian Xi, Bo Yu, Feng Zhou
Published in
ACS applied materials & interfaces. Jul 23, 2025. Epub Jul 23, 2025.
Abstract
Lubricating coatings with excellent fatigue resistance on inert rubber surfaces significantly reduce friction and wear, thereby extending the material durability and lifetime. Conventional coating strategies often face challenges in simultaneously achieving robust interfacial adhesion and low viscosity hysteresis during dynamic sliding. Herein, we propose a solvent-mediated semi-interpenetrating polymer network approach to construct subsurface-embedded lubricating structures. By utilizing solvent-swelling-assisted permeation of a lubricant-modified rigid polysiloxane into rubber matrices, followed by in situ alcoholysis and curing, a hard yet flexible semi-interpenetrating network (semi-IPN) hybrid layer is synthesized. This surface network structure reduced adhesion and hysteresis during the friction test, exhibiting an excellent lubrication effect under 10,000 wear cycles. While the entanglement endowed the coating with excellent fatigue resistance with a low extension rate and a threshold of 7 N compared to the bare polydimethylsiloxane (PDMS) of 3 N. By selectively modifying polysiloxane, other properties, such as oil repellency, can be imparted to the coating surface. Adaptable to polymer modification by using suitable solvents, this method provides an efficient solution for creating durable, lubricating surfaces, broadening its potential applications in multiple industries.
PMID:
40700619
Bibliographic data and abstract were imported from PubMed on 24 Jul 2025.
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