The present paper deals with the performance analysis of a nonrecessed hole-entry hydrostatic/hybrid conical journal bearing with capillary restrictors. Finite element method has been used for solving the modified Reynolds equation governing the flow of lubricant in the clearance space of journal and bearing. The hole-entry hybrid conical journal bearing performance characteristics have been depicted for a wide range of radial load parameter (W¯r  = 0.25–1.5) with uniform distribution of holes at an angle of 30 deg in the circumferential direction. The numerically simulated results have been presented in terms of maximum fluid film pressure, minimum fluid film thickness, lubricant flow rate, direct fluid film stiffness coefficients, direct fluid film damping coefficients, and stability threshold speed. However, the proposed investigation of nonrecess hole-entry hybrid conical journal bearing shows important performance for bearing stiffness and minimum fluid film thickness at variable radial load and at given operating speed.

References

1.
Cheng
,
K.
, and
Rowe
,
W. B.
,
1995
, “
A Selection Strategy for the Design of Externally Pressurized Journal Bearings
,”
Tribol. Int.
,
28
(
7
), pp.
465
474
.
2.
Sharma
,
S. C.
, and
Basavaraja
,
J.
,
2009
, “
A Study of Misaligned Roughened Two Lobe Hole-Entry Hybrid Journal Bearing
,”
Ind. Lubr. Tribol.
,
61
(
4
), pp.
220
227
.
3.
Brian Rowe
,
W.
,
2012
,
Hydrostatic, Aerostatic, and Hybrid Bearing Design
,
Butterworth–Heinemann
,
Oxford, UK
, pp.
259
274
.
4.
Sharma
,
S. C.
, and
Basavaraja
,
J.
,
2010
, “
Influence of Pocket-Size on Hole-Entry Journal Bearing
,”
Ind. Lubr. Tribol.
,
62
(
5
), pp.
263
274
.
5.
Garg
,
H. C.
, and
Sharda
,
H. B.
,
2006
, “
On the Design and Development of Hybrid Journal Bearing—A Review
,”
Tribol. Test
,
12
(
1
), pp.
1
19
.
6.
Stout
,
K. J.
, and
Rowe
,
W. B.
,
1974
, “
Externally Pressurized Bearings Design for Manufacture: Part-1—Journal Bearing Selection
,”
Tribol. Int.
,
7
(
3
), pp.
98
106
.
7.
Stout
,
K. J.
, and
Rowe
,
W. B.
,
1974
, “
Externally Pressurized Bearings Design for Manufacture: Part-3—Design for Liquid Externally Pressurized Bearings for Manufacture Including Tolerancing Procedures
,”
Tribol. Int.
,
7
(
5
), pp.
195
212
.
8.
Rowe
,
W. B.
, and
Xu
,
S. X.
,
1982
, “
Hybrid Journal Bearing With Particular Reference to Hole-Entry Configuration
,”
Tribol. Int.
,
15
(
6
), pp.
339
348
.
9.
Kayar
,
E. L.
, and
Khalil
,
M. F.
,
1983
, “
Two-Dimensional Finite Difference Solution for Externally Pressurized Journal Bearing of Finite Length
,”
Wear
,
84
(
1
), pp.
1
13
.
10.
Yoshimoto
,
S.
, and
Rowe
,
W. B.
,
1988
, “
A Theoretical Investigation of the Effect of Inlet Pocket-Size on the Performance of Hole-Entry Hybrid Journal Bearing Employing Capillary Restrictors
,”
Wear
,
127
(
3
), pp.
307
318
.
11.
Rowe
,
W. B.
,
1989
, “
Advances in Hydrostatic and Hybrid Journal Bearing Technology
,”
Proc. IMechE
,
203
(
4
), pp.
225
242
.
12.
Palzewicz
,
A.
,
1992
, “
Hydrostatic Journal Bearing Without Pressure Chamber Between Bearing Surfaces
,”
Wear
,
159
(
1
), pp.
31
38
.
13.
Sharma
,
S. C.
,
Sinhasan
,
R.
, and
Jain
,
S. C.
,
1993
, “
An Elastohydrostatic Study of Hole-Entry Hybrid Flexible Journal Bearing With Capillary Restrictors
,”
Tribol. Int.
,
26
(
2
), pp.
93
107
.
14.
Wood
,
R. W.
,
1909
, “
The Mercury Paraboloid as a Reflecting Telescope
,”
Astrophys. J.
,
29
, pp.
164
177
.
15.
Ettles
,
C.
, and
Svoboda
,
O.
,
1975
, “
The Application of Double Conical Journal Bearings in High Speed Centrifugal Pumps—Parts 1 and 2
,”
Proc. Inst. Mech. Eng.
,
189
(
1
), pp.
221
230
.
16.
Murthy
,
T. S. R.
,
Satyan
,
B. R.
, and
Shenoy
,
R. K.
,
1977
, “
An Analysis of a New Type of High Precision Conical Preformed Four-Lobe Self-Adjusting Hydrodynamic Crown Bearing for Grinding Work Spindles
,”
Int. J. Mach. Tool Des. Res.
,
17
(
4
), pp.
209
224
.
17.
Salem
,
E.
, and
Khalil
,
F.
,
1978
, “
Thermal and Inertia Effects in Externally Pressurized Conical Thrust Oil Bearings
,”
Appl. Sci. Res.
,
34
(
4
), pp.
341
366
.
18.
Prabhu
,
J. T.
, and
Ganesan
,
N.
,
1981
, “
Characteristics of Conical Hydrostatic Thrust Bearings Under Rotation
,”
Wear
,
73
(
1
), pp.
95
122
.
19.
Prabhu
,
J. T.
, and
Ganesan
,
N.
,
1983
, “
Analysis of Multirecess Conical Hydrostatic Thrust Bearings Under Rotation
,”
Wear
,
89
(
1
), pp.
29
40
.
20.
Yoshimoto
,
S.
,
Kume
,
T.
, and
Shitara
,
T.
,
1998
, “
Axial Load Capacity of Water-Lubricated Hydrostatic Conical Bearings With Spiral Grooves for High Speed Spindles
,”
Wear
,
31
(
6
), pp.
331
338
.
21.
Guo
,
H.
,
Lai
,
X.
, and
Cen
,
S.
,
2009
, “
Theoretical and Experimental Study on Dynamic Coefficients and Stability for a Hydrostatic/Hydrodynamic Conical Bearing
,”
ASME J. Tribol.
,
131
(
4
), pp.
41701
41707
.
22.
Sharma
,
S. C.
,
Phalle
,
V. M.
, and
Jain
,
S. C.
,
2011
, “
Influence of Wear on the Performance of a Multirecess Conical Hybrid Journal Bearing Compensated With Orifice Restrictor
,”
Tribol. Int.
,
44
(
12
), pp.
1754
1764
.
23.
Sharma
,
S. C.
,
Phalle
,
V. M.
, and
Jain
,
S. C.
,
2011
, “
Performance Analysis of a Multirecess Capillary Compensated Conical Hydrostatic Journal Bearing
,”
Tribol. Int.
,
44
(
5
), pp.
617
626
.
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