References

1. S.M. Hsu and E.E. Klaus, "Estimation of Molecular Junction Temperatures in Four-Ball Contacts by Chemical Reaction Rate Studies," ASLE Trans., 21(3), pp. 201-10 (1978).

2. E.G. Shafrin and J.S. Murday, "An Analytical Approach to Ball Bearing Surface Chemistry," J. Vac. Sci. Technology, 14 pp. 246 (1977).

3. E.G. Shafrin and J.S. Murday, "Auger Compositional Analysis of Ball Bearing Steels Reacted with Tricresyl Phosphate," ASLE Trans., 21(4), pp. 329-36 (1978).

4. O.D. Faut and D.R. Wheeler, "On the Mechanism of Lubrication by Tricresyl Phosphate (TCP) - The Coefficient of Friction as a Function of Temperature for TCP on M50 Steel," ASLE Trans., 26(3), pp. 344-50 (1983).

5. D. Godfrey, "The Lubrication Mechanism of Tricresyl Phosphate on Steel," ASLE Trans., 8(1), pp. 1-11 (1965).

6. Y. Yamamato and F. Hirano, "Electrical Behavior of Phosphate Esters," Wear, 50, pp. 349-355 (1978).

7. Y. Yamamato and F. Hirano, "Effect of Different Phosphate Esters on Frictional Characteristics," Tribology, pp. 165-69, August (1980) .

8. A. Gauthier, H. Montes and J.M. Georges, "Boundary Lubrication with Tricresyl Phosphate (TCP) - Importance of Corrosive Wear," 25(4), pp. 445-55 (1982).

9. E.E. Klaus and C.W. Lai, "Vapor Deposited Lubricants for Extreme Conditions," ASLE Sp. Pub. 15 "Solid and Liquid Lubricants for Extreme Environments," pp. 75-9 (1983).

10. E.E. Klaus and C. W. Lai, "Method of Die Casting Metals," U.S. Patent 3978908 (1976).

11. N.D.G. Pinto, J.L. Duda, E.E. Graham, and E.E. Klaus, "In Situ Formation of Solid Lubricating Films from Conventional Mineral Oil and Ester Base Lubricants," ASLE Proceedings, 3rd International Conference on Solid Lubrication, ASLE Sp. Pub. 14, pp. 94-104 (1984).

12. E.E. Graham, E.E. Klaus, "Lubrication from the Vapor Phase at High Temperatures," ASLE Trans. 29(2), pp. 229-34 (1985).

Development of Tribological System and Advanced High-Temperature In-cylinder Components for Advanced High-Temperature Diesel Engines

0 0

Post a comment