REFERENCES
- Agarwal , G. L. 1990 . “Foil Gas Bearings for Turbomachinery,” Soc. of Automotive Engineers, Paper Number 901236
- Heshmat , H. 1994 . “Advancements in the Performance of Aerodynamic Foil Journal Bearings: High Speed and Load Capability,” . ASME Jour. of Trib. , 116 : 287 – 295 .
- DellaCorte , C. 1998 . “The Evaluation of a Modified Chrome Oxide Based High Temperature Solid Lubricant Coating for Foil Gas Bearings,” NASA-TM-1998-208660
- Lubell , D. , DellaCorte , C. and Stanford , M. “Test Evolution and Oil-Free Engine Experience of a High Temperature Foil Air Bearing Coating,” . Proc. of ASME Turbo Expo . May 8-11 , Barcelona , Spain.
- Walton , J. F. , Tomaszewski , M. J. and Heshmat , H. 2003 . “The Role of High Performance Foil Bearings in Advanced, Oil-Free, High-Speed Motor Driven Compressors,” . ASME Fuel Cell Science, Engineering and Technology , : 411 – 418 . ASME Paper Fuel Cell 2003-1747
- Kandebo , S. W. 2003 . “Compact Power,” . Aviation Week and Space Technology , : 38 October 6
- Bruckner , R. J. “A Propulsion System Analysis of Oil-Free Turbomachinery for Aviation Turbofan Engines,” . Proc. at the AIAA/ASME/SAE/ASEE 40th Joint Propulsion Conference . AIAA Paper 2004-4189
- DellaCorte , C. 1997 . “A New Foil Air Bearing Test Rig for Use to 700°C and 70000 rpm,” NASA TM-107405
- Howard , S. A. , DellaCorte , C. , Valco , M. J. , Prahl , J. M. and Heshmat , H. 2001 . “Dynamic Stiffness and Damping Characteristics of a High Temperature Air Foil Journal Bearing,” . Trib. Trans. , 44 ( 4 ) : 657 – 663 .
- Ruscitto , D. , McCormick , J. and Gray , S. 1978 . “Hydrodynamic Air Lubricated Compliant Surface Bearing for an Automotive Gas Turbine Engine-I-Journal Bearing Performance,” NASA CR-135368
- Dykas , B. and Howard , S. A. 2004 . “Journal Design Considerations for Turbomachine Shafts Supported on Foil Air Bearings,” . Trib. Trans. , 47 ( 4 ) : 508 – 516 .
- Radil , K. , Howard , S. and Dykas , B. 2002 . “The Role of Radial Clearance on the Performance of Foil Air Bearings,” . Trib. Trans. , 45 ( 4 ) : 485 – 490 .
- Salehi , M. , Swanson , E. and Heshmat , H. 2001 . “Thermal Features of Compliant Foil Bearings—Theory and Experiments.” . ASME Jour. of Trib. , 123 ( 3 ) : 566 – 571 .
- Radil , K. C. and Zeszotek , M. 2004 . “An Experimental Investigation into the Temperature Profile of a Compliant Foil Air Bearing,” . Trib. Trans. , 47 ( 4 ) : 470 – 479 .
- Heshmat , H. “High Load Capacity Compliant Foil Hydrodynamic Journal Bearing,” . U.S. Patent No. 5,988,885 . 1999 .
- DellaCorte , C. and Valco , M. J. 2000 . “Load Capacity Estimation of Foil Air Journal Bearings for Oil-Free Turbomachinery Applications,” . Trib. Trans. , 43 ( 4 ) : 795 – 801 .
- DellaCorte , C. 2002 . “The Effects of Substrate Material and Thermal Processing Atmosphere on the Strength of PS304: A High Temperature Solid Lubricant Coating,” NASA TM-2002-211483
- Harman , R. 1981 . Gas Turbine Engineering, , 1st Edition , 116 – 119 . John Wiley & Sons, Inc. .
- Curwen , P. W. 1968 . “Research and Development of High-Performance Axial Flow Turbomachinery,” . Design of Gas Bearings , 2 NASA CR-801
- Brodersen , S. , Metzger , D. E. and Fernando , H. J. S. 1996 . “Flows Generated by the Impingement of a Jet on a Rotating Surface: Part 1—Basic Flow Patterns,” . ASME Jour. of Fluids Engineering , 118 ( 1 ) : 61 – 67 .