http://orcid.org/0000-0002-8384-7578
References
- Dufresne, P. T. (2014), Thirty-seven Years of Fleet Operating and Maintenance Experience Using Phosphate Ester Fluids for Bearing Lubrication in Gas-Turbine/Turbo-Compressor Applications, ASTM International, West Conshohocken, PA.
- Phillips, W., Staniewski, J., and Suryanarayan, S. (2014), Ion Exchange and Mechanical Purification of Fire-Resistant Phosphate Ester Fluids Used in Steam-Turbine Control Systems, ASTM International, West Conshohocken, PA.
- Strochkova, E., Tur'yan, Y., and Kuselman, I. (1999), “pH-Metric Method for Acid Number Determination in Hydraulic Oils without Titration,” Talanta, 50, pp 1135–1139.
- Bley, T., Steffensky, J., Mannebach, H., Helwig, A., and Müller, G. (2016), “Degradation Monitoring of Aviation Hydraulic Fluids Using Non-Dispersive Infrared Sensor Systems,” Sensors and Actuators B: Chemical, 224, pp 539–546.
- Sasaki, A., Aoyama, H., Honda, T., Iwai, Y., and Yong, C. K. (2014), “A Study of the Colors of Contamination in Used Oils,” Tribology Transactions, 57, pp 1–10.
- Hedges, J., Voelker, P., McCoy, R., and Ladd, C. (2006), “An In-Line Method for Measuring Oxidation in Gear Oils and Hydraulic Fluids,” Tribology Transactions, 49, pp 215–217.
- ISO 6618:1997. (1997), Petroleum Products and Lubricants—Determination of Acid or Base Number—Colour-Indicator Titration Method, International Organization for Standardization, Geneva.
- JIS K2275. (1996), Testing Methods for Water Content of Crude Oil and Petroleum Products, Japanese Industrial Standards Committee, Tokyo.
- ISO 3104:1994. (1994), Petroleum Products—Transparent and Opaque Liquids—Determination of Kinematic Viscosity and Calculation of Dynamic Viscosity, International Organization for Standardization, Geneva.
- ISO 2049:1996. (1996), Petroleum Products—Determination of Colour (ASTM Scale), International Organization for Standardization, Geneva.
- ISO 4021:1992. (1992), Hydraulic Fluid Power—Particulate Contamination Analysis—Extraction of Fluid Samples from Lines of an Operating System, International Organization for Standardization, Geneva.
- ISO 4407:2002. (2002), Hydraulic Fluid Power—Fluid Contamination—Determination of Particulate Contamination by the Counting Method Using an Optical Microscope, International Organization for Standardization, Geneva.
- McTigue, P. and Renowden, P. (1970), “Kinetic Medium Effects. IV. Hydrolysis of Trimethyl Phosphate in Mixed Solvents,” Australian Journal of Chemistry, 23, pp 297–306.
- D2619-09. (2014), Standard Test Method for Hydrolytic Stability of Hydraulic Fluids (Beverage Bottle Method), ASTM International, West Conshohocken, PA.
- Beran, E. (2010), “Effect of Chemical Structure on the Hydrolytic Stability of Lubricating Base Oils,” Tribology International, 43, pp 2372–2377.
- ISO 6619: 1988. (1988), Petroleum Products and Lubricants—Neutralization Number—Potentiometric Titration Method, International Organization for Standardization, Geneva.
- Carter, E. C, Ohno, Y., Pointer, M. R., Robertson, A. R. et al. (2004), Colorimetry, 3rd ed., CIE Central Bureau: Vienna, Austria.
- ISO 2160:1998. (1998), Petroleum Products—Corrosiveness to Copper—Copper Strip Test, International Organization for Standardization, Geneva.
- Phillips, W. (1994), Triaryl Phosphates: The Next Generation of Lubricants for Steam and Gas Turbines, American Society of Mechanical Engineers, New York, USA.
- Phillips, W. and Sutton, D. (1996), “Improved Maintenance and Life Extension of Phosphate Esters Using Ion-Exchange Treatment,” Journal of Synthetic Lubrication, 13, pp 225–261.
- Hartsuch, P. W. (1999), “Stretch the Life of Your Fire-Resistant Fluids,” Lubes and Greases, 5, pp 30–32, 34, 36.
- Brown, K. (2010), “Trouble Shooting Steam Turbine Control Systems,” Las Vegas Society of Tribologists and Lubrication Engineers Annual Meeting and Exhibition, May 16–20, Las Vegas, NV.