1 |
Kauffman, R. E. and Rhine, W. E., 1998, Development of remaining useful life of a lubricant evaluation technique. Part 1: Differential scanning calorimetry techniques, Lubrication Engineering, Vol. 44, No.2, p.154
|
2 |
Yang, D. S., Kim, Y. W., Chung, K., and Han, J. S., 2002, Thermal stability and life time change characteristics of polyolester oils with temperature, J. Korean Industrial and Engineering Chemistry, Vol. 13, No.8, pp.809-814
|
3 |
Lee, T. V. and Beck, S. R., 1984, A new integral approximation formula for kinetic analysis of nonisothermal TGA data, AICHE J., Vol. 30, No.3, pp.517-519
DOI
|
4 |
ASHRAE, 1998, Lubricants m refrigerant systems, ASHRAE Handbook, Refrigeration, SI ed., chapter 7, pp. 1-24
|
5 |
Bowman, W. F. and Stachowiak, G. W., 1998, New criteria to assess the remaining useful life of industrial turbine oils, Lubrication Engineering, Vol. 52, No. 10, pp.745-750
|
6 |
Gamlin, C. D., Dutta, N. K., Roy-Choudhury, N., Kehoe, D., and Matisons, J., 2002, Evaluation of kinetic parameters of thermal and oxidative decomposition of base oils by conventional, isothermal and modulated TGA and pressure DSC, Thermochimica Acta, Vol. 392. No. 393, pp.357-369
DOI
ScienceOn
|
7 |
Bartl, P. and Volkl, C., 2000, Thermo-oxidative stability of high temperature stability polyol ester jet engine oils-a comparison of test methods, Synthetic Lubrication, Vol. 17, No.3, pp. 179-189
DOI
|
8 |
Doyle, C. D., 1961, Kinetic analysis of thermo-gravimetric data, J. Applied Polymer Science, Vol. 5, No. 15, pp.285-292
DOI
|