The purpose of this study is to investigate the various fluid flow regimes generated by a pinion running partly immersed in an oil bath and the corresponding churning power losses. In a series of papers, the authors have established several loss formulae whose validity depends on two different flow regimes characterized via a critical Reynolds number. Based on some new measurements for transient operating conditions, it has been found that the separation in two regimes may be not accurate enough for wide-faced gears and high temperatures. An extended formulation is therefore proposed which, apart from viscous forces, introduces the influence of centrifugal effects. The corresponding results agree well with the experimental measurements from a number of gears and operating conditions (speed and temperature). Finally, the link between churning and windage losses is examined and it is concluded that the physical mechanisms are different thus making it difficult to establish a general correlation between the two phenomena. In particular, it is shown that tooth geometry is of secondary importance on churning whereas, the air-lubricant circulation being different for spur and helical gears, it substantially impacts windage.

References

1.
Terekhov
,
A. S.
, 1975, “
Hydraulic Losses in Gearboxes With Oil Immersion
,”
Vestn. Mashinostroeniya
,
55
(
5
), pp.
13
17
.
2.
Lauster
,
E.
, and
Boos
,
M.
, 1983, “
Zum Wärmehaushalt Mechanischer Schaltgetriebe für Nutzfahrzeuge
,”
VDI-Ber.
,
488
, pp.
45
55
.
3.
Boness
,
R. J.
, 1989,
“Churning Losses of Discs and Gears Running Partially Submerged in Oil,”
Proceedings of ASME International Power Transmission Gearing Conference
,
Design Engineering Division, ASME
,
Chicago
, Vol.
1
, pp.
355
359
.
4.
Luke
,
P.
, and
Olver
,
A. V.
, 1999, “
A Study of Churning Losses in Dip-Lubricated Spur Gears
,”
Proc. Inst. Mech. Eng., Part G
,
213
, pp.
337
346
.
5.
Höhn
,
B. R.
,
Michaelis
,
K.
, and
Völlmer
,
T.
, 1996, “
Thermal Rating of Gear Drives: Balance Between Power Loss and Heat Dissipation
,”
American Gear Manufacturers Association Document
,
96FTM8
, p.
12
.
6.
Changenet
,
C.
, and
Velex
,
P.
, 2007, “
A Model for the Prediction of Churning Losses in Geared Transmissions—Preliminary Results
,”
ASME J. Mech. Des.
,
129
(
1
), pp.
128
133
.
7.
Seetharaman
,
S.
, and
Kahraman
,
A.
, 2009, “
Load-Independent Spin Power Losses of a Spur Gear Pair: Model Formulation
,”
ASME, J. Tribol.
,
131
(
2
), p.
022201
.
8.
Changenet
,
C.
, and
Velex
,
P.
, 2008, “
Housing Influence on Churning Losses in Geared Transmissions
,”
ASME J. Mech. Des.
,
130
(
6
), p.
062603
.
9.
Candel
,
S.
, 1995,
Mécanique des Fluides—Cours
, 2nd ed.,
Dunod
,
Paris
, pp.
151
183
.
10.
Dawson
,
P. H.
, 1984, “
Windage Loss in Larger High-Speed Gears
,”
Proc. Inst. Mech. Eng.
,
198A
(
1
), pp.
51
59
.
11.
Diab
,
Y.
,
Ville
,
F.
,
Velex
,
P.
, and
Changenet
,
C.
, 2004, “
Windage Losses in High Speed Gears—Preliminary Experimental and Theoretical Results
,”
ASME J. Mech. Des.
,
126
(
5
), pp.
903
908
.
12.
Leprince
,
G.
,
Changenet
,
C.
,
Ville
,
F.
,
Velex
,
P.
, and
Jarnias
,
F.
, 2009,
“Influence of Oil Aeration on Churning Losses”
,
Proceedings of JSME International Conference on Motion and Power Transmissions
,
MPT2009 Sendaï
,
Japan
, pp.
463
468
.
13.
Leprince
,
G.
,
Changenet
,
C.
,
Ville
,
F.
,
Velex
,
P.
,
Dufau
,
C.
, and
Jarnias
,
F.
,
“Influence of Aerated Lubricants on Gear Churning Losses—An Engineering Model,”
Tribol. Trans.
,
54
(
6
), pp.
929
938
.
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