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采用中红外(MIR)光谱探索半合成/全合成汽油发动机油(以下简称机油)结构。结果发现:半合成/全合成机油结构的红外吸收模式主要包括:νC-H-芳烃-机油、νasCH3-机油、νasCH2-机油、νsCH3-机油、νsCH2-机油、νC=O-机油、νC=C-烯烃-机油、νC=C-芳烃-机油、δCH2-机油、δsCH3-机油、β=C—H-机油、νC-C-机油、γ=C—H-机油和ρCH2-机油。半合成/全合成机油结构中的νC=C-烯烃-机油和νC—C-机油官能团对应的红外吸收频率及强度具有较大的差异,全合成机油相对于半合成机油含有更多的烯烃结构。半合成/全合成机油成分主要包括矿物基础油、聚α-烯烃(PAO)基础油和癸二酸酯类基础油,其中半合成机油中矿物基础油含量远高于全合成机油,而PAO基础油和癸二酸酯类基础油的含量明显低于全合成机油。
Abstract:Mid-infrared(MIR) spectroscopy has been used to explore the structure of semi-synthetic/fully synthetic gasoline engine oils(hereinafter referred to as engine oils). The results show that the infrared absorption modes of semi-synthetic/fully synthetic engine oil structures mainly include: νC—H-arene-engine oil, νasCH3-engine oil, νasCH2-engine oil,νsCH3-engine oil, νsCH2-engine oil, νC=O-engine oil, νC=C-olefin-engine oil, νC=C-arene-engine oil, δCH2-engine oil, δsCH3-engine oil, β=C—H-engine oil, νC—C-engine oil, γ=C—H-engine oil,and ρCH2-engine oil. The infrared absorption frequencies and intensities corresponding to the νC=C-olefin-engine oiland νC—C-engine oilfunctional groups in the structures of semi-synthetic/fully synthetic engine oils have significant differences. Fully synthetic engine oils contain more olefin structures than semi-synthetic ones. The components of semi-synthetic/fully synthetic engine oils mainly include mineral base oils, polyalphaolefin(PAO) base oils, and sebacate ester base oils. Among them, the content of mineral base oils in semi-synthetic engine oils is much higher than that in fully synthetic ones, while the contents of PAO base oils and sebacate ester base oils are significantly lower than those in fully synthetic engine oils.
[1]秦聪.汽车机油,您了解多少?[J].中国汽车界,2009(22):114-115.
[2]王志宽.汽车机油品质劣化规律研究[J].内燃机与配件,2018(2):53-54.
[3]田高友,褚小立,易如娟,等.润滑油中红外光谱分析技术[M].北京:化学工业出版社,2014:69-89.
[4]曹磊,孙航,万勇,等.全合成机油润滑下热氧化改性TC4钛合金的摩擦学行为[J].摩擦学学报,2019,39(1):17-25.
[5]夏延秋,王小波,刘维民,等.修饰的纳米铜粒子对合成机油抗磨性能研究[J].润滑与密封,2003(6):22-23+25.
[6]赵宁.半合成抗结焦型燃气/蒸汽涡轮机油的研制[J].合成润滑材料,2021,48(1):8-11.
[7]王鹏,李雁秋,张秀娟.昆仑KHT68半合成冷冻机油的研制及应用[J].润滑油,2017,32(6):1-8.
[8]杜林楠,吉一帆,李宇涵,等.半合成汽油发动机油结构及热变性中红外光谱研究[J].炼油与化工,2025,36(5):30-37.
[9]杜林楠,杨珊珊,孔晓美,等.乙基纤维素结构中红外-近红外光谱组学研究[J].纺织科学与工程学报,2024,41(3):91-100+109.
[10]徐元媛,柴嘉欣,吉一帆,等.聚氯乙烯分子结构中红外光谱研究[J].中国氯碱,2024(6):29-35.
[11]周悦茉,柴嘉欣,吉一帆,等.聚四氟乙烯非晶相结构及热变性中红外光谱研究[J].纺织科学与工程学报,2024,41(2):53-58+99.
[12]柴嘉欣,吉一帆,李雨情,等.乙纶分子结构及热变性三级长波近红外-中红外光谱研究[J].纺织科学与工程学报,2024,41(1):58-67.
[13]于宏伟,杜林楠,杨珊珊,等.高真空硅脂的结构研究[J].润滑油,2024,39(4):18-25.
[14]于宏伟,田晨阳,李穆婵,等.汽油机油分子结构及热变性研究[J].西安文理学院学报(自然科学版),2024,27(3):76-84.
[15]徐元媛,李穆婵,李雨情,等.二甲基硅油中杂质的结构及半定量研究[J].炼油与化工,2024,35(3):14-20.
[16]于宏伟,常美玲,王宁,等.医用润滑剂组成结构的红外光谱研究[J].润滑油,2024,39(3):30-38.
[17]吴雨靓,李穆婵,田晨阳,等.石蜡油中杂质结构中红外光谱研究[J].炼油与化工,2024,35(1):14-18.
[18]于宏伟,吴雨靓,常美玲,等.聚四氟乙烯生料带中助挤剂结构的中红外光谱研究[J].润滑油,2023,38(5):25-35.
[19]于宏伟,孟露,孔昊,等.真空泵润滑油分子结构研究[J].润滑油,2022,37(2):40-45.
[20]于宏伟,王晓萱,李佳欣,等.新油及在用机油结构的多维红外光谱研究[J].润滑油,2021,36(5):37-41.
基本信息:
DOI:10.13573/j.cnki.sjzxyxb.2025.06.010
中图分类号:O657.33;TE626.32
引用信息:
[1]杜林楠,吉一帆,李宇涵,等.半合成/全合成汽油发动机油结构中红外光谱研究[J].石家庄学院学报,2025,27(06):76-81.DOI:10.13573/j.cnki.sjzxyxb.2025.06.010.
2025-11-20
2025-11-20