可生物降解汽油机油(10W/30 SG)全配方优化试验及低温性能研究
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摘要
本文介绍了国内外可生物降解润滑油的发展现状及趋势。通过分析汽油机对润滑油的性能要求以及可生物降解润滑油在低温性能和可生物降解性能方面的要求,合理选用植物油基础油和添加剂。本文应用均匀设计试验方法,用逐步回归对试验结果进行处理,分析了基础油对添加剂的感受性及添加剂之间的配伍性。在重点考察润滑油低温性能的基础上,提出了10W/30 SG级汽油机油的优化配方。最后进行了研制油与同类进口油品的性能对比试验及研制油的可生物降解性试验。结果表明,研制油的质量水平达到了10W/30 SG的性能要求,且具有可生物降解性。
In this paper the development status and trend of biodegradable engine oil at home and abroad are described. By analyzing properties of gasoline engine oil and the biodegradable engine oil's demands on low temperature capability and biodegradable performance, vegetable base oil and additives are chosen in reason. The uniform design of experiment is used and the stepwise technique is adopted to analyze the result, so that the sensitivity and compatibility among bas oil and additives are studied. On the basis of stress analyzing the low temperature capability the optimum of 10W/30 SG gasoline engine oil is presented. Finally, several experiments are made to evaluate the biodegradable capability and the property of the formulation by comparing with the imports. The results show that their qualities are equivalent and the former is biodegradable.
In this paper the development status and trend of biodegradable engine oil at home and abroad are described. By analyzing properties of gasoline engine oil and the biodegradable engine oil's demands on low temperature capability and biodegradable performance, vegetable base oil and additives are chosen in reason. The uniform design of experiment is used and the stepwise technique is adopted to analyze the result, so that the sensitivity and compatibility among bas oil and additives are studied. On the basis of stress analyzing the low temperature capability the optimum of 10W/30 SG gasoline engine oil is presented. Finally, several experiments are made to evaluate the biodegradable capability and the property of the formulation by comparing with the imports. The results show that their qualities are equivalent and the former is biodegradable.
引文
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40.美国SAE网站:http://www.sae.org
41.美国API网站:http://www.api.org
2.董浚修.润滑原理及润滑油,北京:中国石化出版社.1998
3.颜志光.润滑材料与润滑技术.北京:中国石化出版社.2000
4.颜志光.润滑剂性能测试手册.北京:中国石化出版社.2000
5.颜志光.合成润滑剂.北京:中国石化出版社.1996
6.何曼君,陈维孝,董西侠.高分子物理.上海:复旦大学出版社.1994
7.[英]R.S.伦可.聚合物流变学.超星图书馆
8.J.E. Clerenger,H.F.Richards.多级发动机油的低温流变学—配方效应.Shell DevelopmentCo Westthollow Research Center
9. ASADAUSKAS SVAJUS ERHAN SEVIM Z.Depression of pour points of vegetable oils by blending with dilents used for biodegradable lubricants. TEKTRAN United States Department of Agriculture Agricultural Research Service
10.G.M.Schmidt,M.T.Qlsen,M.L.Michacl.润滑油在缓慢冷却条件下的低温流动性.超星图书馆
11.王延臻,劳永新.润滑油的低温流变学进展.润滑油.1997.10:55~57
12.潘强余.汽车润滑油低温成胶理论及动力学.石油化工.1995.6:399~404
13.潘强余.汽车润滑油低温可泵性的判据.石油化工.1995.7:482~486
14.王大璞等.绿色润滑油的发展概况.摩擦学学报.1999.6:181~186
15.曹月平等.环境友好润滑剂及添加剂.润滑油.1999.10:17~22
16.张青蔚,伏喜胜,付兴国.工业润滑油现状及发展趋势.润滑油.2001.4:1~11
17.刘影.润滑油基础油的发展现状及趋势.润滑2001.4:59~62
18.王莉萍.降凝剂的降凝性能与热稳定性.润滑.2001.5:32~34
19.陈延.国外发动机油低温性能测定方法的发展概况.润滑油.2001.6:1~4
20.刘瑞子.汽车发动机摩擦学基础.西安.西安公路学院讲义.1989
21.曹月平等.磷酸三甲酚酯和亚磷酸二正丁酯添加剂对菜籽油摩擦学性能的影响.摩擦学学报.2000.4:119
22.石油产品和石油产品试验方法.北京:中国机械出版社.1998
23.国家环保局.水和废水监测分析方法.中国环境科学出版社.1989
24.徐亚同,史家樑,张明.污染控制微生物工程.化学工业出版社.2001
25.[苏]H.C.阿鲁楚尼亚恩.油脂加工工艺.超星图书馆
26.邵哓生.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
27.马林才.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.长安大学硕士论文.2001
28.余磊.可生物降解汽油机油(10W/30 SG)的试验性研究.长安大学硕士论文.2001
29.方开泰,全辉,陈庆云.实用回归分析.超星图书馆
30.方开泰.均匀设计与均匀设计表.北京:科学出版社.1994
31.方开泰等.正交与均匀试验设计.北京:科学出版社.2001
32.胡适耕.最优化原理.武汉:华中理工大学出版社.2000
33.上海师范大学数学教研室.回归分析及其试验设计.上海:上海教育出版社.1978
34.刘维信.机械最优设计.北京:清华大学出版社.1994
35.张宜华.精通MATLAB 5.北京:清华大学出版社.
36.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
37.谭浩强.C语言程序设计.北京:清华大学出版社.1992
38.汪荣鑫.数理统计.西安:西安交大出版社.1993
39.超星图书馆:http://www.ssreader.com.cn
40.美国SAE网站:http://www.sae.org
41.美国API网站:http://www.api.org