In this study, a surface wear prediction methodology for spur and helical gears is proposed. The methodology employs a finite elements-based gear contact mechanics model in conjunction with the Archard’s wear formulation to predict wear of contacting tooth surfaces. An iterative numerical procedure is developed to account for the changes in the gear contact as the gears wear. A methodology is developed to import gear coordinate measurement machine data into the gear contact model in order to analyze gears with actual manufactured surfaces with profile and lead modifications. Results of an experimental study are presented for validation of the methodology. A set of simulations is also included to highlight the differences between gear pairs having modified and unmodified tooth surfaces, with and without manufacturing errors in terms of their wear characteristics.

Issue Section:
Technical Papers
Keywords:
gears, wear, mechanical contact, lubrication, surface topography, finite element analysis
Topics:
Gears, Wear, Helical gears
1.
Choy
,
F. K.
,
Polyshchuk
,
V.
, and
Zakrajsek
,
J. J.
,
Handschuh
,
R. F.
, and
Townsend
,
D. P.
,
1996
, “
Analysis of the Effects of Surface Pitting and Wear on the Vibration of a Gear Transmission System
,”
Tribol. Int.
,
29
, pp.
77
83
.
2.
Mackaldener, M., Flodin, A., and Andersson, S., 2001, “Robust Noise Characteristics of Gears Due to their Applications, Manufacturing Errors and Wear,” JSME International Conference on Motion and Power Transmission, MPT 2001, Fukuoka, Japan, 21–26.
3.
Kuang
,
J. H.
, and
Lin
,
A. D.
,
2001
, “
The Effect of Tooth Wear on the Vibration Spectrum of a Spur Gear Pair
,”
ASME J. Vibr. Acoust.
,
123
, pp.
311
317
.
4.
Chen, Y., and Matubara, M., 2001, “Effect of Automatic Transmission Fluid on Pitting Fatigue Strength of Carborized Gears,” JSME International Conference on Motion and Power Transmission, MPT 2001, Fukuoka, Japan, 151–156.
5.
Cioc
,
C.
,
Cioc
,
S.
,
Kahraman
,
A.
, and
Keith
,
T. G.
,
2002
, “
A Deterministic Elastohydrodynamic Lubrication Model of High-Speed Transmission Components
,”
Tribol. Trans.
,
45
, pp.
556
562
.
6.
Wu
,
S.
, and
Cheng
,
H. S.
,
1993
, “
Sliding Wear Calculation in Spur Gears
,”
ASME J. Tribol.
,
115
, pp.
493
503
.
7.
Flodin
,
A.
, and
Andersson
,
S.
,
1997
, “
Simulation of Mild Wear in Spur Gears
,”
Wear
,
207
, pp.
123
128
.
8.
Flodin
,
A.
, and
Andersson
,
S.
,
2000
, “
Simulation of Mild Wear in Helical Gears
,”
Wear
,
241
, pp.
123
128
.
9.
Rabinowicz, E., 1995, Friction and Wear of Materials, 2nd ed., John Wiley, New York.
10.
Archard
,
J. F.
,
1953
, “
Contact of Rubbing Flat Surfaces
,”
J. Appl. Phys.
,
24
, pp.
981
988
.
11.
Hsu
,
S. M.
,
Shen
,
M. C.
, and
Ruff
,
A. W.
,
1997
, “
Wear Prediction of Metals
,”
Tribol. Int.
,
30
, pp.
377
383
.
12.
Williams
,
J. A.
,
1999
, “
Wear Modeling: Analytical, Computational and Mapping: A Continuum Mechanics Approach
,”
Wear
,
225
, pp.
1
17
.
13.
Zhao
,
Y. W.
,
Liu
,
J. J.
, and
Zheng
,
L. Q.
,
1992
, “
The Friction and Wear Model of Steels and their Probable Statistic Calculations
,”
Tribol. Trans.
,
35
, pp.
673
678
.
14.
Kato
,
K.
,
1997
, “
Abrasive Wear of Metals
,”
Tribol. Int.
,
30
, pp.
333
338
.
15.
Sawyer
,
W. G.
,
2001
, “
Life Prediction for a Simple Cam Including Couple Evolution of Wear and Load
,” Lubr. Eng., September, pp. 31–36.
16.
Priest
,
M.
,
Dowson
,
D.
, and
Taylor
,
C. M.
,
1999
, “
Predictive Wear Modeling of Lubricated Piston Rings in a Diesel Engine
,”
Wear
,
231
, pp.
89
101
.
17.
Flodin
,
A.
, and
Andersson
,
S.
,
2001
, “
A Simplified Model for Wear Prediction in Helical Gears
,”
Wear
,
249
, pp.
285
292
.
18.
Wagaj
,
P.
, and
Kahraman
,
A.
,
2002
, “
Effect of Tooth Profile Modifications on Helical Gear Durability
,”
ASME J. Mech. Des.
,
124
, pp.
501
510
.
19.
Krantz
,
T.
, and
Kahraman
,
A.
,
2004
, “
An Experimental Investigation of the Influence of the Lubricant Viscosity and Additives on Gear Wear
,”
Tribol. Trans.
,
47
,
138
148
.
20.
Yuksel
,
C.
, and
Kahraman
,
A.
,
2003
, “
Dynamic Tooth Loads of Planetary Gear Sets Having Tooth Profile Wear
,” Mech. Mach. Theory, accepted for publication.
21.
Challen
,
J. M.
, and
Oxley
,
P. L. B.
,
1986
, “
Prediction of Archard’s Wear Coefficient for Sliding Metallic Sliding Friction Assuming Low Cycle Fatigue Wear Mechanism
,”
Wear
,
111
, pp.
275
288
.
22.
Vijayakar
,
S.
,
1991
, “
A Combined Surface Integral and Finite Element Solution for a Three-dimensional Contact Problem
,”
Int. J. Numer. Methods Eng.
,
31
, pp.
525
545
.
23.
Bajpai, P., 2002, “A Wear Prediction Model for Parallel-Axis Gear Pairs,” M.S. thesis, The University of Toledo, Toledo, OH.
Copyright © 2004
 by ASME
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