Present Situations and Development Trends of Main Technologies of Lubricant Additives

Chao Wu; Shi Liang Yang; Hong Wei Yang; Teng Li; Zhi Rong Bi

doi:10.4028/www.scientific.net/AMM.121-126.297

Paper Titles

Optimization of Ultrasonic Plastic Welding Horns on Amplitude Uniformity
p.278

Orthogonal Cutting of Biological Soft Tissue with Single Cutting Edge
p.283

Oxidation Kinetics of Self-Lubricating Ti-48%Al-2%Nb-2%Cr-x%CaF₂ Composites
p.288

Preparation and Performance of Bio-Adhesive Based on Acorn Starch Graft Glycidyl Methacrylate
p.293

Present Situations and Development Trends of Main Technologies of Lubricant Additives
p.297

Principle and Applications of Grinding Wheel Regenerator
p.301

Propagation of Lamb Waves in one Dimensional Nesting Fibonacci Superlattices Thin Plates
p.306

Quantitative Control of C₂S Crystal Transformation
p.311

Quasi-Static Failure Analysis of Composite Sandwich Panels
p.316

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 121-126Present Situations and Development Trends of Main...

Present Situations and Development Trends of Main Technologies of Lubricant Additives

Abstract:

This paper introduces the main technologies of lubricant additives (including compounding technologies, environment friendly technologies, nanotechnology and wear self-repairing technologies), analyzes their characteristics and problems and points out that environment friendly synthetic multi-functional additives are the main development trend of lubricant additives.

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Periodical:

Applied Mechanics and Materials (Volumes 121-126)

Pages:

297-300

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.121-126.297

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Online since:

October 2011

Authors:

Chao Wu, Shi Liang Yang, Hong Wei Yang, Teng Li, Zhi Rong Bi

Keywords:

Compounding Technology, Lubricant Additives, Nanotechnology, Wear Self-Repairing

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References

[1] Nie Qian, Li Jian, Wu Chun. Tribological Behavior of Molybdenum-Contaning Composite Anti-wear Additive[J]. Lubrication Engineering，2003，（5），41-42.

Google Scholar

[2] Wang Hailin, Zhang Xuedong, Zhu Jun, et al. Experimental Study on the Synergistic Effect between Detergent and Dispersant of Engine Oil [J]. Lubrication Engineering，2001，（4）: 31-33.

Google Scholar

[3] Fang Jianhua, Chen Boshui, Dong Ling, et al. Synthesis and Tribological Behavior of Environmentally Friendly Water Base Lube Additive [J]. Petroleum Processing and Petrochemicals，2003，34（4），22-25.

Google Scholar

[4] Xia Yanqiu, Jin Shouri, Sun Weiming. Effect of nano grade copper powder on wear and friction properties of lubricant[ J ]. Lubrication Engineering, 1999 (3) : 33 - 34.

Google Scholar

[5] Xia Yanqiu, Yang Wentong, Ma Xiangui, et al. Improving antiwear properties of lubrication oil with nano copper powder[ J ]. Lubrication Engineering, 1998 (5) : 43 - 44.

Google Scholar

[6] Liu Meihua, Li Xiuzhen, Wang Shuren, et al. Study on the Friction and Wear Mechanism of Nano-particles and Traditional Antiwear Additives [J]. Synthetic Lubricants, 2002, 29(2): 19-22.

Google Scholar

[7] Li Xin, Ma Shining, Liu Jiyan. Study on Tribological Performance of Ion Sulphurized Layer on CrMoCu Alloy Cast Iron [J]. Transaction of Materials and Heat Treatment，2008. （3）：32-34.

Google Scholar

[8] Tu Zhengwen, You Zhongliu, Gao Wanzhen, et al. Wear Self-Compensation Effect of Polymerizable Additive[J]. Materials Protection , 2002，35（6）: 16-17.

Google Scholar