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Task‐Specific Oil‐Miscible Ionic Liquids Lubricate Steel/Light Metal Alloy: A Tribochemistry Study
Author(s) -
Yu Qiangliang,
Wang Yurong,
Huang Guowei,
Ma Zhengfeng,
Shi Yijun,
Cai Meirong,
Zhou Feng,
Liu Weimin
Publication year - 2018
Publication title -
advanced materials interfaces
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.671
H-Index - 65
ISSN - 2196-7350
DOI - 10.1002/admi.201800791
Subject(s) - ionic liquid , materials science , solubility , phosphonium , ionic bonding , base oil , metal , chemical engineering , base (topology) , inorganic chemistry , metallurgy , ion , organic chemistry , composite material , polymer chemistry , chemistry , scanning electron microscope , engineering , catalysis , mathematical analysis , mathematics
Abstract In order to increase the solubility of ionic liquids in base oils and to improve the lubricating performance of light alloys, two new ionic liquids comprised of sulfonate base anion and phosphonium based cation are designed and synthesized. The difference between these two ionic liquids is the cation: One has only one organophosphate group (P 88816 DOSS) and the other has two organophosphate group (P 888P DOSS). The copper strip corrosion test is used to evaluate the anticorrosion properties of new developed ionic liquids. Tribological properties of the ionic liquids are investigated by an optimal SRV‐IV oscillating tribometer. The results indicate that the new designed ionic liquids show very good solubility in traditional mineral‐based oils. P 88816 DOSS and P 888P DOSS show excellent friction reduction, antiwear performance accompanied with effective anticorrosion properties for the mineral base oil. Surface analysis results show that the superior properties of P 88816 DOSS and P 888P DOSS are attributed to surface chemical reactions between ionic liquids and light metal.