In this paper, results of an experimental study are presented to describe the impact of certain types of manufacturing errors on gear stresses and the individual planet loads of an n-planet planetary gear set (n=36). The experimental setup includes a specialized test apparatus to operate a planetary gear set under typical speed and load conditions and gear sets having tightly controlled intentional manufacturing errors. The instrumentation system consists of multiple strain gauges mounted on the ring gear and a multichannel data collection and analysis system. A method for computing the planet load-sharing factors from root strain-time histories is proposed. Influence of carrier pinhole position errors on gear root stresses is quantified for various error and torque values applied to gear sets having three to six planets. The results clearly indicate that manufacturing errors influence gear stresses and planet load sharing significantly. Gear sets having larger number of planets are more sensitive to manufacturing errors in terms of planet load-sharing behavior.

1.
Hidaka
,
T.
, and
Terauchi
,
Y.
, 1976, “
Dynamic Behavior of Planetary Gear—1st Report, Load Distribution in Planetary Gear
,”
Bull. JSME
0021-3764,
19
, pp.
690
698
.
2.
Hidaka
,
T.
,
Terauchi
,
Y.
, and
Dohi
,
K.
, 1979, “
On the Relation between the Run Out Errors and the Motion of the Center of Sun Gear in a Stoeckicht Planetary Gear
,”
Bull. JSME
0021-3764,
22
, pp.
748
754
.
3.
Hidaka
,
T.
,
Terauchi
,
Y.
, and
Nagamura
,
K.
, 1979, “
Dynamic Behavior of Planetary Gear—7th Report, Influence of the Thickness of Ring Gear
,”
Bull. JSME
0021-3764,
22
, pp.
1142
1149
.
4.
Muller
,
H. W.
, 1982,
Epicyclic Drive Trains
,
Wayne State University Press
,
Detroit
.
5.
Seager
,
D. L.
, 1970, “
Load Sharing Among Planet Gears
,” SAE Paper No. 700178.
6.
Kasuba
,
R.
, and
August
,
R.
, 1986, “
Torsional Vibrations and Dynamic Loads in a Basic Planetary Gear System
,”
ASME J. Vib., Acoust., Stress, Reliab. Des.
0739-3717,
108
, pp.
348
353
.
7.
Ma
,
P.
, and
Botman
,
M.
, 1985, “
Load Sharing in a Planetary Gear Stage in the Presence of Gear Errors and Misalignments
,”
ASME J. Mech., Transm., Autom. Des.
0738-0666,
107
, pp.
1
7
.
8.
Jarchow
,
F.
, 1989, “
Development Status of Epicyclic Gears
,”
ASME International Power Transmission and Gearing Conference
,
Chicago
.
9.
Hayashi
,
T.
,
Li
,
Y.
,
Hayashi
,
I.
,
Endou
,
K.
, and
Watanabe
,
W.
, 1986, “
Measurement and Some Discussions on Dynamic Load Sharing in Planetary Gears
,”
Bull. JSME
0021-3764,
29
, pp.
2290
2297
.
10.
Kahraman
,
A.
, 1994, “
Load Sharing Characteristics of Planetary Transmissions
,”
Mech. Mach. Theory
0094-114X,
29
, pp.
1151
1165
.
11.
Kahraman
,
A.
, 1999, “
Static Load Sharing Characteristics of Transmission Planetary Gear Sets: Model and Experiment
,” SAE Paper No. 1999–01–1050.
12.
Kahraman
,
A.
, and
Vijayakar
,
S.
, 2001, “
Effect of Internal Gear Flexibility on the Quasi-Static Behavior of a Planetary Gear Set
,”
ASME J. Mech. Des.
1050-0472,
123
, pp.
408
415
.
13.
Bodas
,
A.
, and
Kahraman
,
A.
, 2004, “
Influence of Carrier and Gear Manufacturing Errors on the Static Load Sharing Behavior of Planetary Gear Sets
,”
JSME Int. J., Ser. C
1340-8062,
47
, pp.
908
915
.
14.
Singh
,
A.
, 2005, “
Application of a System Level Model to Study the Planetary Load Sharing Behavior
,”
ASME J. Mech. Des.
1050-0472,
127
, pp.
469
476
.
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