A model is developed to predict the hydrodynamic performance of a foil journal bearing. The model accounts for both the compressibility of air and the compliance of the bearing surface. A series of predictions of the load-carrying capacity based on the numerical solution for pressure is presented that cover a wide range of operating speeds. The results show good agreement with existing experimental data.

Issue Section:
Technical Papers
Keywords:
foils, compressible flow, hydrodynamics, machine bearings
Topics:
Bearings, Foil bearings, Load bearing capacity, Pressure, Film thickness
1.
Heshmat
,
H.
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Shapiro
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W.
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Gray
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S.
,
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Development of Foil Journal Bearings for High Load Capacity and High-Speed Whirl Stability
,”
ASME J. Lubr. Technol.
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104
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2
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149
156
.
2.
Heshmat
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H.
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, “
Advancements in the Performance of Aerodynamic Foil Journal Bearings: High Speed and Load Capacity
,”
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3.
Heshmat
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,
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, and
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ASME J. Lubr. Technol.
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4.
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5.
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,”
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6.
Faria
,
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, and
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,
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On the Numerical Modeling of High-Speed Hydrodynamic Gas Bearing
,”
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7.
Ku
,
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, and
Heshmat
,
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,
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Compliant Foil Bearing Structural Stiffness Analysis: Part I—Theoretical Modal Including Strip and Variable Bump Foil Geometry
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ASME J. Tribol.
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8.
Heshmat
,
H.
, and
Ku
,
C.-P. R.
,
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Structural Damping of Self-Acting Compliant Foil Journal Bearings
,”
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9.
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, and
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,
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Calculation of Stiffness and Damping Coefficients for Elastically Supported Gas Foil Bearings
,”
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10.
Heshmat
,
C. A.
et al.,
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, “
Analysis of Gas Lubricated Foil Thrust Bearings Using Coupled Finite Element and Finite Difference Methods
,”
ASME J. Tribol.
,
122
, pp.
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204
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11.
Heshmat
,
H.
,
Walowit
,
J. A.
, and
Pinkus
,
O.
,
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, “
Analysis of Gas-Lubricated Compliant Thrust Bearings
,”
ASME J. Lubr. Technol.
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105
, pp.
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646
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12.
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13.
Strom, T., 1987, Program Manager, Advanced Gas Turbine (AGT) Technology Development Project-Final Report, NASA CR-180891.
Copyright © 2004
 by ASME
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