The work presented here is a model of the degradation of a material (by particle detachment), based on a two dimensional granular dynamic model designed to study the flows of third body particles inside a contact. As the detached particles (third body) cannot exit the contact, the detachments stop after a certain time and a stable layer of third body can be seen. It is shown that the thickness of this stable layer depends both on the conditions applied (normal pressure and sliding speed) and the physicochemical interactions between the detached particles. Such investigations provide better understanding of the mechanism leading to the degradation of material.

Issue Section:
Technical Papers
Keywords:
sliding friction, numerical analysis, mechanical contact, wear
Topics:
Adhesion, Damping, Dynamic models, Flow (Dynamics), Friction, Particulate matter, Pressure, Simulation, Materials degradation, Wear, Fluids
1.
Meng
,
H. C.
, and
Ludema
,
K. C.
,
1995
, “
Wear Models and Predictive Equations: Their Form and Content
,”
Wear
,
181–183
, pp.
443
457
.
2.
Godet
,
M.
,
1984
, “
The Third Body Approach: a Mechanical View of Wear
,”
Wear
,
100
, pp.
437
452
.
3.
Godet
,
M.
,
1990
, “
Third-Bodies in Tribology
,”
Wear
,
136
, pp.
29
45
.
4.
Ludema, K. C., 1995, “Third Bodies: Perspectives on Modeling in Lubricated Contacts, in Close Fitting Contacts, etc: Following on the Concepts of Dr. Maurice Godet,” 22nd Leeds Lyon Symposium on Tribology, Elsevier Tribology Series, 31, pp. 3–19.
5.
Berthier, Y., 1995, “Maurice Godet’s Third Body,” 22nd Leeds-Lyon Symposium on Tribology, Elsever Tribology Series, 31, pp. 21–30.
6.
Descartes, S., and Berthier, Y., 2001, “Competition Between Mechanical and Physicochemical Actions: Consequence on Friction. The Case of a Contact Lubricated by a Third Body Stemming From a Coating of MoS1.6,” Proceedings of the Second World Tribology Congress, Scientific Achievements, Industrial Applications, Future Challenges, F. Franek, W. J. Bartz, and A. Pauschitz, eds., Vienna, pp. 67–71.
7.
Se`ve, B., Iordanoff, I., and Berthier, Y., 2000, “Using Discrete Models to Simulate Solid Third Bodies: Influence of the Inter-Granule Forces on the Macroscopical Behavior,” 27nd Leeds-Lyon Symposium on Tribology, Elsevier Tribology Series, 39, pp. 361–368.
8.
Se`ve, B., Iordanoff, I., Berthier, Y., and Jacquemard, P., 2000, “The Granular Approach: A Tool for Understanding Solid Third Body Behavior in Contact,” Proc. of the 5th International Tribology Conference, Japanese Society of Tribologists, Tokyo, 2, pp. 1103–1108.
9.
Iordanoff
,
I.
,
Se`ve
,
B.
, and
Berthier
,
Y.
,
2002
, “
Solid Third Body Analysis Using a Discrete Approach: Influence of Adhesion and Particle Size on the Macroscopic Behavior of the Contact
,”
ASME J. Tribol.
,
124
, pp.
530
538
.
10.
O¨qvist
,
M.
,
2001
, “
Numerical Simulations of Mild Wear Using Updated Geometry With Different Step Size Approaches
,”
Wear
,
249
, pp.
6
11
.
11.
Po˜dra
,
P.
, and
Andersson
,
S.
,
1997
, “
Wear Simulation With the Winkler Surface Model
,”
Wear
,
207
, pp.
79
85
.
12.
Archard
,
J. F.
,
1953
, “
Contact and Rubbing of Flat Surfaces
,”
J. Appl. Phys.
,
24
, pp.
981
988
.
13.
Bingley, M. S., and Roniotis, D., 2002, “A Comparison of Two-Body and Three-Body Abrasive Wear in Various Wet and Dry Environments,” Proc. 6th International Tribology Conference Austrib’2002, G. W. Stachowiak, eds., Perth, 1, pp. 181–188.
14.
De Pellegrin, D. V., and Stackowiak, G. W., 2002, “Sharpness of Abrasive Particles and Surfaces,” Proc. 6th International Tribology Conference Austrib’2002, G. W. Stachowiak, eds., Perth, 1, pp. 203–210.
15.
Heshmat
,
H.
,
1992
, “
The Quasi-Hydrodynamic Mechanism of Powder Lubrication, Part 1: Lubricant Flow Visualisation
,”
Lubr. Eng.
,
48
(
2
), pp.
96
104
.
16.
Heshmat
,
H.
,
1992
, “
The Quasi-Hydrodynamic Mechanism of Powder Lubrication, Part 2: Lubricant Film Profile
,”
Lubr. Eng.
,
48
(
5
), pp.
373
383
.
17.
Heshmat
,
H.
,
1995
, “
The Quasi-Hydrodynamic Mechanism of Powder Lubrication, Part 3: On Theory and Rheology of Triboparticles
,”
Tribol. Trans.
,
38
(
2
), pp.
269
276
.
18.
Savage
,
S. B.
,
1987
, “
A Simple Theory for Granular Flow of Rough, Inelastic, Spherical Particles
,”
ASME J. Appl. Mech.
,
54
, pp.
47
53
.
19.
McKeague
,
K. T.
, and
Khonsari
,
M. M.
,
1996
, “
Generalized Boundary Interactions for Powder Lubricated Couette Flows
,”
ASME J. Tribol.
,
118
,
580
588
.
20.
Yu
,
C. M.
,
Craig
,
K.
, and
Tichy
,
J.
,
1996
, “
Granular Collision Lubrication
,”
J. Rheol.
,
38
(
4
), pp.
921
936
.
21.
Cundall
,
P. A.
, and
Strack
,
O. D. L.
,
1979
, “
A Discrete Numerical Model for Granular Assemblies
,”
Geotechnique
,
29
(
1
), pp.
47
65
.
22.
Cundall, P. A., 1987, “Distinct Element Modes of Rock and Soil Structure,” Analytical and Computational Methods in Engineering Rock Mechanics, E. T. Brown, eds., Imperial College of Science and Technology, Londres, pp. 129–163.
23.
Chan Tien, C. E., 1998, “Simulation Nume´riques du Comportement d’un Film Granulaire Cisaille´ en Fonction de la Rugosite´ des Parois et de la Forme des Granules,” Ph.D. thesis, Institut National des Sciences Applique´es de Lyon, Villeurbanne.
24.
Dubujet, P., Ghaoudi, A., Chaze, M., and Sidoroff, F., 1995, “Particulate and Granular Simulation of Third Body Behavior,” 22nd Leeds-Lyon Symposium on Tribology, Elsevier Tribology Series, 31, pp. 355–365.
25.
Elrod, H. G., and Brewe, D. E., 1991, “Numerical Experiments With Flows of Elongated Granules,” 18th Leeds-Lyon Symposium on Tribology, Elsevier Tribology Series, 21, pp. 219–226.
26.
Elrod, H. G., 1995, “Numerical Experiments With Flows of Elongated Granules-Part II,” 22nd Leeds-Lyon Symposium on Tribology, Elsevier Tribology series, 31, pp. 347–354.
27.
Lubrecht, A. A., Chan Tien, C. E., and Berthier, Y., 1995, “A Simple Model for Granular Lubrication, Influence of Boundaries,” 22nd Leeds-Lyon Symposium on Tribology, Elsevier Tribology Series, 31, pp. 377–385.
28.
Sawyer
,
G. W.
, and
Tichy
,
J. A.
,
2001
, “
Lubrication With Granular Flow: Continuum Theory, Particle Simulation, Comparison With Experiment
,”
ASME J. Tribol.
,
123
, pp.
777
784
.
29.
Jean, M., 1995, “Frictional Contact in Rigid or Deformable Bodies: Numerical Simulation of Geomaterials,” A. P. S. Salvadurai and J. M. Boulon, eds., Elsevier, Amsterdam, pp. 463–486.
30.
Jean, M., 1999, “The Non Smooth Contact Dynamic Method,” Computer Methods in Applied Mechanics and Engineering, J. A. C. Martins and A. Klarbring, eds., 177, pp. 235–257.
31.
Moreau, J. J., 1988, “Unilateral Contact and Dry Friction in Finite Freedom Dynamics,” Non Smooth Dynamics and Applications, J. J. Moreau et al., eds., Springer, Berlin, 302, pp. 1–82.
32.
Moreau
,
J. J.
,
1994
, “
Some Numerical Methods in Multibody Dynamics: Application to Granular Materials
,”
Eur. J. Mech. A/Solids
,
13
(
4
), pp.
93
114
.
33.
Liu
,
W. C.
,
Shi
,
S. Q.
,
Huang
,
H.
, and
Woo
,
C. H.
,
2002
, “
Dislocation Nucleation and Propagation during Thin Film Deposition Under Compression
,”
Comput. Mater. Sci.
,
23
, pp.
155
165
.
34.
Vu-Quoc, L., Zhang, X., and Walton, O. R., 2000, “A 3D Discrete-Element Method for Dry Granular Flows of Ellipsoidal Particles,” Computer Methods in Applied Mechanics and Engineering, 187, pp. 483–528.
35.
Kafui
,
K. D.
, and
Thornton
,
C.
,
2000
, “
Numerical Simulation of Impact Breakage of a Spherical Crystalline Agglomerate
,”
Powder Technol.
,
109
, pp.
113
132
.
36.
Verlet
,
L.
,
1967
, “
Computer ‘Experiments’ on Classical Fluids. I. Thermodynamical Properties of Lennard-Jones Molecules
,”
Phys. Rev.
159
, pp.
98
103
.
37.
Iordanoff
,
I.
, and
Khonsari
,
M. M.
,
2003
, “
Granular Lubrication: Towards an Understanding of the Transition Between Kinetic and Fluid Regime
,”
ASME J. of Tribology
,
126
, pp.
133
145
.
38.
Mishra
,
B. K.
, and
Murty
,
C. V. R.
,
2001
, “
On the Determination of Contact Parameters for Realistic DEM Simulations of Ball Mills
,”
Powder Technol.
,
115
, pp.
290
297
.
39.
Cleary
,
P. W.
,
1998
, “
Predicting Charge Motion, Power Draw, Segregation and Wear in Ball Mills Using Discrete Element Methods
,”
Minerals Eng.
,
11
(
11
), pp.
1061
1080
.
40.
Descartes
,
S.
, and
Berthier
,
Y.
,
2002
, “
Rheology and Flows of Solid Third Bodies: Background and Application to an MoS1.6 Coating
,”
Wear
,
252
, pp.
546
556
.
41.
Fillot, N., Iordanoff, I., and Berthier, Y., 2002, “Stable Contact and Degradation of Materials: A Model for Third Body Source Flow,” Proc. 6th Austrib International Tribology Conference, G. W. Stachowiak, eds., Perth, 2, pp. 709–716.
42.
Hsu
,
S. M.
, and
Shen
,
M. C.
,
1996
, “
Ceramic Wear Maps
,”
Wear
,
200
, pp.
154
175
.
43.
Yu
,
C. M.
, and
Tichy
,
J.
,
1996
, “
Granular Collisional Lubrication: Effect of Surface Roughness, Particle Size and Solid Fraction
,”
STLE Tribol. Trans.
,
39
(
3
), pp.
537
546
.
44.
Wang
,
D. F.
, and
Kato
,
K.
,
2003
, “
Humidity Effect on the Critical Number of Friction Cycles for Wear Particle Generation in Carbon Nitride Coatings
,”
Wear
,
254
, pp.
10
22
.
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