Sage Journals: Discover world-class research

Abstract

A novel disulphide compound containing boron (DSB) was synthesized successfully and characterized, and its tribological properties in polyol esters were evaluated using a four-ball tribometer. The results indicate that DSB possesses excellent tribological properties. Moreover, DSB has no noticeable odour, little corrosion to copper, exhibits better thermal stability and antioxidant performance compared with sulfurized olefins. In order to study the action mechanism of the synthetic additive in friction process, a three-dimensional non-contact surface profilometer was used to explore the morphology of the worn surface and X-ray photoelectron spectroscopy analysis was carried out. It is found that tribological reaction occurred between DSB and metal surface, a film consisting FeSO₄ was formed, accompanied by the adsorption of decomposed borate ester and organic sulphide.

Keywords

disulphide tribological property sulphurized olefins boron

Get full access to this article

View all access options for this article.

References

Milner

J. L.

Phillips

R. L.

Ozbalik

Rollin

A. J.

Odor reduction of lubricant additives packages. US Pat. 6133207, 2000.

Bultrago

J. A.

Lubricating oil composition which decreases copper corrosion and method of making same. European Pat. 1471134A2, 2004.

Arvizzigno

J. A.

Ashjian

Napier

R. P.

Sulfurized olefins. US Pat. 5338468, 1994.

Udelhofen

J. H.

Watson

R. W.

Kurasiewicz

A. S.

Phosphosulfurized hydrocarbon polymer stabilized with 2,5-bis(alkyldithio)-1,3,4-thiadiazole. US Pat. 3826798, 1974.

Shaw

J. E.

Production of polysulfides. US Pat. 5403961, 1995.

Adams

T. H.

Borate-a new generation EP gear lubricant

Lubr. Eng., 1977, 33 (4), 241–246.

Adams

T. H.

Godfrey

Borate gear lubricant-EP film analysis and performance

Lubr. Eng., 1981, 37 (9), 16–21.

Liu

Jin

Xue

The performance and antiwear mechanism of S-containing organic borate as an oil additive

Lubr. Sci., 1994, 7, 49–60.

Horodysky

A. G.

Kaminski

J. M.

Borated polyhydroxyalkyl sulfides and lubricants containing same. US Pat. 4465605, 1984.

10.

Audeh

C. A.

Organic boron-sulfur compounds and lubricant compositions containing same. US Pat. 4759873, 1988.

11.

Wang

Lubricant tribochemistry, 1994 (Sinopetro Publisher Press, Beijing).

12.

Moulder

S. F.

Stickle

W. F.

Sobol

P. E.

Bomben

K. D.

Handbook of X-ray photoelectron spectroscopy, 1992 (Perkin-Elmer Press, Physical Electronics Division).

13.

Adhvaryu

Erhan

S. Z.

Liu

Z. S.

Perez

J. M.

Oxidation kinetic studies of oils derived from unmodified and genetically modified vegetables using pressurized differential scanning calorimetry and nuclear magnetic resonance spectroscopy

Thermochim. Acta, 2000, 364, 87–97.

Using a novel disulphide compound containing boron as a potential substitute for sulphurized olefins in lubricants

Abstract

Abstract

Keywords

Get full access to this article

References