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氩气等离子体聚合大豆油的合成及摩擦学性能研究 被引量:2

Synthesis of Argon Plasma Polymerized Soybean Oil and Evaluation of Its Tribological Characteristics
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摘要 利用氩气等离子体降低大豆油(SO)中不饱和C=C双键的含量,得到高黏度的聚合油PAR2.采用凝胶渗透色谱仪分析了PAR2的分子量分布;采用四球摩擦磨损试验机考察了PAR2及同黏度级别的光亮油175BS的摩擦学性能;采用X射线光电子能谱仪分析了钢球摩擦表面元素的化学成分及状态.结果表明:氩气等离子体处理使得PAR2在40℃下的黏度由33.8 cSt增加到956 cSt;与175BS相比,PAR2表现出更为优良的黏温及低温流动性能.与此同时,PAR2中的聚合物主要由SO的二聚物及高分子量的齐聚物组成,其数均分子量M n分别达到2 735和5 434.此外,PAR2的承载能力以及减摩抗磨性能优于175BS;这是由于PAR2在金属表面形成的由羧酸铁组成的边界润滑膜与高价氧化铁膜共同作用,从而有效地减轻金属表面的摩擦与磨损所致. The content of unsaturated double bonds (C = C ) of soybean oil (SO) was decreased by argon plasma polymerization to obtain polymerized oil PAR2. The molecular weight distribution of PAR2 was determined with a gel permeation chromatograph. The tribological properties of PAR2 and 175BS, a bright lubricating oil with the same viscosity grade as that of PAR2, were evaluated with a four - ball machine. Moreover, the chemical composition and state of the elements on the sliding surface of the steel balls were analyzed by means of X - ray photoelectron spectroscopy. Results indicate that Ar plasma treatment increased the viscosity of PAR2 at 40℃ from 33.8 cSt to 956 cSt. As compared with 175BS,PAR2 exhibited better viscosity- temperature and low temperature properties. The polymerized species in plasma- treated PAR2 mainly included the dimers and oligomers of SO, and the number average molecular weight, Mn, of the dimers and oligomers were 2 735 and 5 434, respectively. Moreover, PAR2 showed better load - carrying capacity as well as friction - reducing performance and anti -wear ability than 175BS. This is attributed to the synergistic effect of iron carboxylate and iron oxide with high valent state on sliding steel surface ,thereby effectively reducd friction and wear of the steel -steel contact.
作者 赵晓云 杨敬一 陶德华 徐心茹
机构地区 华东理工大学石油加工研究所 上海大学机电工程与自动化学院润滑化学研究室
出处 《摩擦学学报》 EI CAS CSCD 北大核心 2014年第1期87-92,共6页 Tribology
关键词 氩气等离子体 聚合 大豆油 合成 摩擦学性能 argon plasma, polymerization, soybean oil, synthesis, tribological properties
分类号 TH117.2 [机械工程—机械设计及理论] TE626.3 [石油与天然气工程—油气加工工程]
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参考文献20

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摩擦学学报
2014年 第1期

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