A Frictionally constrained condition implies dependence of friction force on tangential displacement amplitude. The condition may occur due to chemical, physical, and/or mechanical interaction between the contacting surfaces. The condition, sometimes also referred to as the presliding condition or partial slip condition, is characterized under fretting. Under such conditions, various experimental studies indicate the existence of two distinguishable regions, that is, stick region and slip region. In the present study, frictionally constrained conditions are identified and the evolutions of stick-slip regions are investigated in detail. Investigations have been performed on self-mated stainless steel and chromium carbide coated surfaces mated against stainless steel, under both vacuum and ambient conditions. Contact conditions prevailing at the contact interface were identified based on the mechanical responses and were correlated with the surface damage observed. Surface degradation has been observed in the form of microcracks and material transfer. Detailed numerical analysis has also been performed in order to understand the energy dissipation and the damage mode involved in the surface or subsurface damage. It has been observed that under frictionally constrained conditions, the occurrence of annular slip features are mainly due to the junction growth, resulting from elastic-plastic deformation at the contact interface. Ratcheting has been observed as the governing damage mode under cyclic tangential loading condition.
Issue Section:
Contact Mechanics
References
1.
Waterhouse
, R. B.
, 1981
, Fretting Fatigue
, Applied Science Publishers Ltd.
, London
.2.
Vingsbo
, O.
, and Soderberg
, D.
, 1988
, “On Fretting Maps
,” Wear
, 126
, pp. 131
–147
.10.1016/0043-1648(88)90134-23.
Zhou
, Z. R.
, and Vincent
, L.
, 1995
, “Mixed Fretting Regime
,” Wear
, 181–183
, pp. 531
–536
.4.
Mindlin
, R. D.
, 1949
, “Compliance of Elastic Bodies in Contact
,” J. Appl. Mech.
, 16
, pp. 259
–268
.5.
Johnson
, K. L.
, 1955
, “Surface Interaction Between Elastically Loaded Bodies Under Tangential Forces
,” Proc. R. Soc. London, Ser. A
, 230
, pp. 531
–548
.10.1098/rspa.1955.01496.
Bowden
, F. P.
, Moore
, A. J. W.
, and Tabor
, D.
, 1943
, “The Ploughing and Adhesion of Sliding Metals
,” J. Appl. Mech.
, 14
, pp. 80
–91
.7.
Courtney-Pratt
, J. S.
, and Eisner
, E.
, 1957
, “The Effect of a Tangential Force on the Contact of Metallic Bodies
,” Proc. R. Soc. London, Ser. A
, 238
, pp. 529
–550
.10.1098/rspa.1957.00168.
McFarlane
, J. S.
, and Tabor
, D.
, 1950
, “Relation Between Friction and Adhesion
,” Proc. R. Soc. London, Ser. A
, 202
, pp. 244
–253
.10.1098/rspa.1950.00979.
Tabor
, D.
, 1959
, “Junction Growth in Metallic Friction: The Role of Combined Stresses and Surface Contamination
,” Proc. R. Soc. London, Ser. A
, 251
, pp. 378
–393
.10.1098/rspa.1959.011410.
Bowden
, F. P.
, and Tabor
, D.
, 1950
, Friction and Lubrication of Solids
, Oxford University
, London
.11.
Morrison
, J. L.
, and Shepherd
, W. M.
, 1950
, “An Experimental Investigation of Plastic Stress-Strain Relations
,” Proc. Inst. Mech. Eng.
, 163
, pp. 1
–17
.10.1243/PIME_PROC_1950_163_007_0212.
Brygman
, U.
, and Soderberg
, S.
, 1986
, “Contact Conditions in Fretting
,” Wear
, 110
, pp. 1
–17
.10.1016/0043-1648(86)90148-113.
Ödfalk
, M.
, and Vingsbo
, O.
, 1992
, “An Elastic-Plastic Model for Fretting Contact
,” Wear
, 157
, pp. 435
–444
.10.1016/0043-1648(92)90080-R14.
Etsion
, I.
, 2010
, “Revisiting the Cattaneo–Mindlin Concept of Interfacial Slip in Tangentially Loaded Complaint Bodies
,” ASME J. Tribol.
, 132
(2), p. 020801
.10.1115/1.400123815.
Johnson
, K. L.
, 2004
, Contact Mechanics
, Cambridge University
, Cambridge
.16.
Kannel
, J. W.
, and Tevaarwerk
, J. L.
, 1984
, “Subsurface Stress Evaluation Under Rolling/Sliding Contact
,” ASME J. Tribol.
, 106
(1), pp. 96
–103
.10.1115/1.326087317.
Hamilton
, G. M.
, 1983
, “Explicit Equations for the Stresses Beneath a Sliding Spherical Contact
,” Proc. Inst. Mech. Eng.
, 197
, pp. 53
–59
.10.1243/PIME_PROC_1983_197_076_0218.
Chivers
, T. C.
, and Gordelier
, S. G.
, 1985
, “Fretting Fatigue and Contact Conditions: A Rational Explanation of Palliative Behavior
,” Proc. Inst. Mech. Eng.
, 199
(4
), pp. 325
–337
.19.
Hills
, D. A.
, Nowell
, D.
, and Sackfield
, A.
, 1993
, Mechanics of Elastic Contacts
, Butterworth–Heinemann
, London
.20.
Hills
, D. A.
, and Nowell
, D.
, 1994
, Mechanics of Fretting Fatigue
, Kluwer Academic
, Dordrecht
.21.
Proudhon
, H.
, Fouvry
, S.
, and Yantio
, G. R.
, 2008
, “Determination and Prediction of the Fretting Crack Initiation: Introduction of the (P,Q,N) Representation and Definition of a Variable Process Volume
,” Int. J. Fatigue
, 28
(7
), pp. 707
–713
.22.
Talemi
, R. H.
, Wahab
, M. A.
, and De Baets
, P.
, 2011
, “Numerical Modeling of Fretting Fatigue
,” J. Phys.: Conf. Ser.
, 305
, p. 012061
.23.
Begley
, M. R.
, and Hutchinson
, J. W.
, 1999
, “Plasticity in Fretting of Coated Substrates
,” Eng. Fract. Mech.
, 62
, pp. 145
–164
.10.1016/S0013-7944(99)00002-824.
Ambrico
, J. M.
, and Begley
, M. R.
, 2000
, “Plasticity in Fretting Contacts
,” J. Mech. Phys. Solids
, 48
, pp. 2391
–2417
.10.1016/S0022-5096(99)00103-925.
Kogut
, L.
, and Etsion
, I.
, 2003
, “A Semi-Analytical Solution for the Sliding Inception of a Spherical Contact
,” ASME J. Tribol.
, 125
(3), pp. 499
–506
.10.1115/1.153819026.
Brizmer
, V.
, Kligerman
, Y.
, and Etsion
, I.
, 2007
, “Elastic-Plastic Spherical Contact Under Combined Normal and Tangential Loading in Full Stick
,” Tribol. Lett.
, 25
(1
), pp. 61
–70
.10.1007/s11249-006-9156-y27.
Blau
, P. J.
, ed., 2001
, ASM Handbook Volume 18: Friction, Lubrication and Wear Technology
, American Society for Metals
, Metals Park, OH
.28.
Farwick
, D. G.
, and Johnson
, R. N.
, 1980
, “Wear and Corrosion Performance of Metallurgical Coatings in Sodium
,” Thin Solid Films
, 73
, pp. 145
–153
.10.1016/0040-6090(80)90341-729.
Garcia
, M.
, and Dominguez
, J.
, 2002
, “Fretting Fatigue in a Spherical Contact
,” J. Strain Anal.
, 37
(6
), pp. 469
–478
.10.1243/03093240232095009930.
Hamdy
, M. M.
, Overs
, M. P.
, and Waterhouse
, R. B.
, 1981
, “A New High Temperature Fretting Wear Test Rig
,” J. Phys. E: Sci. Instrum.
, 14
, pp. 889
–894
.10.1088/0022-3735/14/7/02531.
Yantio Njankeu Sabeya
, G. R.
, Paris
, J.-Y.
, and Denape
, J.
, 2009
, “Utility of a Fretting Device Working Under Free Displacement
,” Tribol. Int.
, 42
, pp. 1330
–1339
.10.1016/j.triboint.2009.04.03232.
Gao
, C.
, Kahlmann-Wilsdrof
, D.
, and Makel
, D. D.
, 1994
, “The Dynamic Analysis of Stick Slip Motion
,” Wear
, 173
, pp. 1
–12
.10.1016/0043-1648(94)90251-833.
Etsion
, I.
, Kligerman
, Y.
, and Kadin
, Y.
, 2005
, “Unloading of an Elastic-Plastic Loaded Spherical Contact
,” Int. J. Solids Struct.
, 42
, pp. 3716
–3729
.10.1016/j.ijsolstr.2004.12.00634.
Filippi
, S.
, Gola
, M.
, and Akay
, A.
, 2004
, “Measurement of Tangential Contact Hysteresis During Micro-Slip
,” ASME J. Tribol.
, 126
(3
), pp. 482
–490
.10.1115/1.169203035.
Zolotarevskiy
, V.
, Kligerman
, Y.
, and Etsion
, I.
, 2011
, “The Evolution of Static Friction for Elastic-Plastic Contact in Pre-Sliding
,” ASME J. Tribol.
, 133
(3), p. 034502
.10.1115/1.400430436.
Varenberg
, M.
, Etsion
, I.
, and Halperin
, G.
, 2004
, “Slip Index: A New Unified Approach to Fretting
,” Tribol. Lett.
, 17
(3
), pp. 569
–573
.10.1023/B:TRIL.0000044506.98760.f937.
Johnson
, K. L.
, 1961
, “Energy Dissipation at Spherical Surfaces in Contact Transmitting Oscillatory Forces
,” J. Mech. Eng. Sci.
, 3
(4
), pp. 362
–368
.10.1243/JMES_JOUR_1961_003_048_0238.
Ovcharenko
, A.
, Halperin
, G.
, and Etsion
, I.
, 2008
, “In Situ and Real-Time Optical Investigation of Junction Growth in Spherical Elastic-Plastic Contact
,” Wear
, 264
, pp. 1043
–1050
.10.1016/j.wear.2007.08.00939.
Johnson
, K. L.
, 1995
, “Contact Mechanics and Wear of Materials
,” Wear
, 190
, pp. 162
–170
.10.1016/0043-1648(95)06665-940.
Srinivasan
, V. S.
, 2000
, “Strain Controlled Low Cycle Fatigue and Creep-Fatigue Interaction Behavior of a Type 316L (N) Stainless Steel
,” Ph.D. thesis, Indian Institute of Science, Bangalore, India.
41.
Rabinowicz
, E.
, 1965
, Friction and Wear of Materials
, Wiley
, New York
.42.
Waterhouse
, R. B.
, 1972
, Fretting Corrosion
, Pergamon
, New York
.43.
Chander
, S.
, Meikandamurthy
, C.
, Kale
, R. D.
, and Krishmurty
, R.
, 1993
, “Experimental Study of Self Welding of Materials in High Temperature Liquid Sodium
,” Wear
, 162–164
, pp. 458
–465
.10.1016/0043-1648(93)90530-Y44.
Bethune
, B.
, and Waterhouse
, R. B.
, 1965
, “Adhesion Between Fretting Steel Surface
,” Wear
, 8
, pp. 22
–29
.10.1016/0043-1648(65)90247-4Copyright © 2014 by ASME
You do not currently have access to this content.
