汽油机、柴油机通用润滑油(SF/CD 10W/40)抗氧化安定性与抗磨性研究
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摘要
本文介绍了国内外汽柴机油的发展状况,通过分析内燃机主要摩擦副
的润滑状态及汽油机和柴油机对润滑油的性能要求,合理地选用基础油和
添加剂,并通过引进均匀设计方法,合理地安排多水平多因素试验,用逐
步回归对试验结果进行处理,提出各个回归方程,以此分析基础油对添加
剂的感受性、添加剂间的配伍性。本文在重点考察润滑油的抗氧化剂和抗
磨剂与其他添加剂的相互作用的基础上,调配出具有良好抗氧化安定性和
抗磨性的10W/40 SF/CD级汽柴油机通用机油的优化配方,并考察了该配方
与国外进口油品的对比性能,结果表明,其质量水平相当。
The development status of gasoline and diesel engine oils at home and abroad are described in this paper. The lubrication mechanism of the main tribo-pairs of engine and properties of internal combustion engine oil are analyzed simply. In this paper, the base oil and some additives are chosen scientifically and reasonably. The uniform design of experiment is firstly used for arranging multilevel and multi-factor experiments. The stepwise technique is adopted to put forward the regression equation. The sensitivity and compatibility among additives and the base oil were studied by a series of tests. Interactions among oxidation-corrosion inhibitor, wear- inhibitor and other additives were stress researched. At last, the optimum formulation of 1OW/40 SF/CD internal combustion engine oil was presented. Simultaneously, the property of this formulation was evaluated by being compared with the imports. The test results show that their qualities
are equivalent.
的润滑状态及汽油机和柴油机对润滑油的性能要求,合理地选用基础油和
添加剂,并通过引进均匀设计方法,合理地安排多水平多因素试验,用逐
步回归对试验结果进行处理,提出各个回归方程,以此分析基础油对添加
剂的感受性、添加剂间的配伍性。本文在重点考察润滑油的抗氧化剂和抗
磨剂与其他添加剂的相互作用的基础上,调配出具有良好抗氧化安定性和
抗磨性的10W/40 SF/CD级汽柴油机通用机油的优化配方,并考察了该配方
与国外进口油品的对比性能,结果表明,其质量水平相当。
The development status of gasoline and diesel engine oils at home and abroad are described in this paper. The lubrication mechanism of the main tribo-pairs of engine and properties of internal combustion engine oil are analyzed simply. In this paper, the base oil and some additives are chosen scientifically and reasonably. The uniform design of experiment is firstly used for arranging multilevel and multi-factor experiments. The stepwise technique is adopted to put forward the regression equation. The sensitivity and compatibility among additives and the base oil were studied by a series of tests. Interactions among oxidation-corrosion inhibitor, wear- inhibitor and other additives were stress researched. At last, the optimum formulation of 1OW/40 SF/CD internal combustion engine oil was presented. Simultaneously, the property of this formulation was evaluated by being compared with the imports. The test results show that their qualities
are equivalent.
引文
[1] 王毓民.汽车燃料、润滑油及其应用.北京:人民交通出版社,1994.
[2] 陈文仙.透视与把握中国润滑油市场.润滑油,2000 (6) :7~11.
[3] 胡连奇.烷基化芳胺抗氧剂研制及应用研究.润滑油,1996(2) :16~21.
[4] 朱新生.高碱值环烷酸钙在SE 10W/30汽油机油中的应用(环烷酸钙经济 配方).润滑油,1999(2) :26~32.
[5] 吴铁成.10W/40 SF/CD通用内燃机油的研制及评定.石油炼制与化工, 1997(12) :1~9.
[6] 张景河.现代润滑油与燃料添加剂.北京:中国石化出版社,1991.
[7] 许汉立.内燃机润滑与用油.北京:中国石化出版社,1997.
[8] 中国石油化工部总公司辽宁联络部.石油和石油化工产品用户手册.北 京:中国石化出版社,1997.
[9] 董浚修.润滑原理及润滑油.北京:中国石化出版社,1998.
[10] 周敬忠.OCP系列稠化剂对 T803B 等降凝剂降凝效果.润滑油,1996 (4) :33~35.
[11] 欧风.石油产品应用技术手册.北京:中国石化出版社,1998.
[12] 姚彬.含硼、铜润滑油添加剂的摩擦学性能.润滑与密封,2000(1) :22~24.
[13] 上海师范大学数学教研室.回归分析及其实验设计.上海:上海教育出版 社,1978.
[14] 李海燕.配方均匀设计在耐火材料生产工艺中的应用.沈阳建筑工程 学院学报,1999(1) .
[15] 李涛.Matlab 工具箱应用指南-应用数学篇.北京:电子工业出版社, 2000.
[16] 方开泰.均匀设计与均匀设计表.北京:科学出版社,1994.
[17] Masaaki Shiomi and Jun’ichi Mitsui.Formulation Technology for Low Phosphorus Gasoline Engine oils.SAE Paper 922301.
[18] 张雪冬.汽油机油添加剂相互作用及抗磨性研究.西安公路交通大学硕 士论文,1998.
[19] 候仲淼.减摩型高级汽油机油的研究.西安公路交通大学硕士论文, 1999.
[20] 王向阳.高负荷增压柴油机油及其清净分散性的研究.西安公路交通大 学硕士论文,1999.
[21] 邵晓生.可生物降解的汽油机油(15W/40 SF)的研究.西安公路交通大 学硕士论文,1999.
[22] 何效平.高速重负荷柴油机油及其抗磨性的研究.西安公路交通大学硕士 论文,2000.
[23] 张俊彦.有机铜盐抗氧剂及其作用机理.润滑与密封,2000,4(2) : 5~8.
[24] 关子杰.内燃机润滑油应用原理.北京:机械工业出版社,1994.
[25] 马汉卿.内燃机油使用化学.北京:中国石化出版社,1997.
[26] 卢成锹.发动机油质量与汽车制造厂的需求.润滑油,1998(6) :1~7.
[27] 赵崇智.SD/CC30通用内燃机油优化配方LAN3213的研究及应用.润滑 油,1999(6) :28~31.
[28] 谭浩强.C语言程序设计.北京:清华大学出版社,1992.
[29] SYED Q.A.RIZVI.Additives for Automotive Fuels and Lubricants. Lubrication Engineering,1999:33~39.
[30] 胡性禄.2000年汽车对内燃机油的新要求.润滑油,1997(6) :57~60.
[31] 徐美娟.用正交设计研究添加剂对发动机油抗磨性能的影响.润滑油, 1997(3) :13~16.
[32] 李卫东.硅油在油品中的分散及消泡性能.润滑油,1996(2) :33~35.
[33] Anthony Gaskell. Molybdenum Disulfide:New Life for Old Technology.Lubricants World,1998,8(1) :40~43.
[34] E.R.Braithwaite.The influence of MoS_2 on the mechanism of piston-ring wear during the running-in process.Industrial Lubrication and Tribology,1999(6) :274~287.
[35] 王柱.含有定性因素的均匀设计.数理统计与管理,1999(5) :11~18.
[36] 王任芳.ZDDP对MoDDP摩擦性能的影响.润滑油,1999(1) :40~42.
[37] 刘惟信.机械最优化设计.北京:清华大学出版社,1994.
[2] 陈文仙.透视与把握中国润滑油市场.润滑油,2000 (6) :7~11.
[3] 胡连奇.烷基化芳胺抗氧剂研制及应用研究.润滑油,1996(2) :16~21.
[4] 朱新生.高碱值环烷酸钙在SE 10W/30汽油机油中的应用(环烷酸钙经济 配方).润滑油,1999(2) :26~32.
[5] 吴铁成.10W/40 SF/CD通用内燃机油的研制及评定.石油炼制与化工, 1997(12) :1~9.
[6] 张景河.现代润滑油与燃料添加剂.北京:中国石化出版社,1991.
[7] 许汉立.内燃机润滑与用油.北京:中国石化出版社,1997.
[8] 中国石油化工部总公司辽宁联络部.石油和石油化工产品用户手册.北 京:中国石化出版社,1997.
[9] 董浚修.润滑原理及润滑油.北京:中国石化出版社,1998.
[10] 周敬忠.OCP系列稠化剂对 T803B 等降凝剂降凝效果.润滑油,1996 (4) :33~35.
[11] 欧风.石油产品应用技术手册.北京:中国石化出版社,1998.
[12] 姚彬.含硼、铜润滑油添加剂的摩擦学性能.润滑与密封,2000(1) :22~24.
[13] 上海师范大学数学教研室.回归分析及其实验设计.上海:上海教育出版 社,1978.
[14] 李海燕.配方均匀设计在耐火材料生产工艺中的应用.沈阳建筑工程 学院学报,1999(1) .
[15] 李涛.Matlab 工具箱应用指南-应用数学篇.北京:电子工业出版社, 2000.
[16] 方开泰.均匀设计与均匀设计表.北京:科学出版社,1994.
[17] Masaaki Shiomi and Jun’ichi Mitsui.Formulation Technology for Low Phosphorus Gasoline Engine oils.SAE Paper 922301.
[18] 张雪冬.汽油机油添加剂相互作用及抗磨性研究.西安公路交通大学硕 士论文,1998.
[19] 候仲淼.减摩型高级汽油机油的研究.西安公路交通大学硕士论文, 1999.
[20] 王向阳.高负荷增压柴油机油及其清净分散性的研究.西安公路交通大 学硕士论文,1999.
[21] 邵晓生.可生物降解的汽油机油(15W/40 SF)的研究.西安公路交通大 学硕士论文,1999.
[22] 何效平.高速重负荷柴油机油及其抗磨性的研究.西安公路交通大学硕士 论文,2000.
[23] 张俊彦.有机铜盐抗氧剂及其作用机理.润滑与密封,2000,4(2) : 5~8.
[24] 关子杰.内燃机润滑油应用原理.北京:机械工业出版社,1994.
[25] 马汉卿.内燃机油使用化学.北京:中国石化出版社,1997.
[26] 卢成锹.发动机油质量与汽车制造厂的需求.润滑油,1998(6) :1~7.
[27] 赵崇智.SD/CC30通用内燃机油优化配方LAN3213的研究及应用.润滑 油,1999(6) :28~31.
[28] 谭浩强.C语言程序设计.北京:清华大学出版社,1992.
[29] SYED Q.A.RIZVI.Additives for Automotive Fuels and Lubricants. Lubrication Engineering,1999:33~39.
[30] 胡性禄.2000年汽车对内燃机油的新要求.润滑油,1997(6) :57~60.
[31] 徐美娟.用正交设计研究添加剂对发动机油抗磨性能的影响.润滑油, 1997(3) :13~16.
[32] 李卫东.硅油在油品中的分散及消泡性能.润滑油,1996(2) :33~35.
[33] Anthony Gaskell. Molybdenum Disulfide:New Life for Old Technology.Lubricants World,1998,8(1) :40~43.
[34] E.R.Braithwaite.The influence of MoS_2 on the mechanism of piston-ring wear during the running-in process.Industrial Lubrication and Tribology,1999(6) :274~287.
[35] 王柱.含有定性因素的均匀设计.数理统计与管理,1999(5) :11~18.
[36] 王任芳.ZDDP对MoDDP摩擦性能的影响.润滑油,1999(1) :40~42.
[37] 刘惟信.机械最优化设计.北京:清华大学出版社,1994.