On the damage mechanisms of bending fretting fatigue
TribologyInternational76(2014)133–141
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TribologyInternational
journalhomepage:http://www.77cn.com.cn/locate/triboint
Onthedamagemechanismsofbendingfrettingfatigue
J.F.Peng,M.H.Zhun,Z.B.Cai,J.H.Liu,K.C.Zuo,C.Song,W.J.Wang
TribologyResearchInstitute,TractionPowerStateKeyLaboratory,SouthwestJiaotongUniversity,Chengdu610031,China
articleinfo
Articlehistory:
Received8July2013Receivedinrevisedform22December2013
Accepted28December2013
Availableonline18January2014Keywords:
FrettingfatigueBendingfrettingDamagemechanismDislocation
abstract
Thebendingfrettingfatiguetestsof316Lausteniticstainlesssteel,7075aluminumalloy,LZ50steeland30CrNiMo8steelhavebeencarriedoutunderdifferentbendingstressesandnormalcontactstresses.TheS–Ncurvesofvariedmaterialsaresetupaccordingly,whichpresenttheshapeliketheGreekletter“ε”andcanbepidedintothreerunningregimessimilartofrettingwear.BasedontheOM,SEM,EDSandTEM,thefrettingfatiguedamageshavebeenanalyzedindetail.Thefrettingweardamagemechanismsoffrettingzoneareabrasivewear,oxidativewearanddelamination,adamagephysicalmodelintheMFRisproposed.AccordingtotheTEMresults,twocrackinitiationmechanismshavebeenproposedbasedondifferentmaterialcharacteristics.
&2014ElsevierLtd.Allrightsreserved.
1.Introduction
Frettingisthesmall-amplitudeoscillatorymovementwhichmayoccurbetweencontactingsurfaces[1],andmayleadtosurfacedamage[2–4],whichwas rstreportedintheopenliteratureaboutonecenturyago[5].Frettingresearchiscomposedbyfrettingwear,frettingfatigueandfrettingcorrosion.Asarule,frettingfatiguefailureresultsfromcrackformationandpropaga-tioninacomponentunderthecombinedactionoftwofactors:(a)thetotalcyclicstressonthecomponentand(b)thelocalstressarisingfromtherelativeslipofthesurfacesofthetwoelementsincontactunderthepressure.Contactstressesresultingfromsurfacefrettingcandramaticallyreducethefatiguestrengthofacompo-nentascomparedtothesamecomponentsustainingonlythebulkfatigueloads[6–12].Accordingtothemodesofbodycyclicstress,thefrettingfatiguecanbepidedintothreesampletypes,i.e.tension–compression(ortension–tension)frettingfatigue,bend-ingfrettingfatigueandtorsionalfrettingfatigue,asshowninFig.1.Therearemanyresearchmainlyfocusedontheprioritymodeuptothepresent;however,thestudiesonthetwolattermodesarestillinsuf cient,especiallyonbendingfrettingfatigue[6–10].
Thebendingfrettingfatiguecanbede nedasthedamageistheconsequenceofacyclicbendingloadimposedtothecontact-ingcomponentstoshortenthefatiguestrengthofthecomponentsearly,wheretherelativemovementoffrettingisresultedfromthecyclicalbendingstress.Failurephenomenaofbendingfrettingfatiguebroadlyoccurinthemodernindustrial elds,suchas
electricalmotorshaftandpinionshaftofmotors,dovetailgroovematchinginturbineengines,overheadelectricalwires,andothershrink- ttedcomponents.However,morestudiesextensivelyfocusedonthewheel-on-axleassembly,especiallyaxlesofrailwayvehicles[3–5].
Manyresearchershaveinvestigatedthetension–compressionortension–tensionfrettingfatiguewidely[11–16];however,themechanismsofbendingfrettingfatiguearestillnotclearnow,soitisnecessarytosystematicallystudythebendingfrettingfatigue.Ontheotherhand,inordertoenhancethereliabilityandtheservicelifeofcomponents,thedamagebehaviorsoffrettingfatigueunderbendingconditionsarealsoworthtostudy.Inthepreviousworksoftheauthors0group,thebehaviorsofbendingfrettingfatigueofmediumcarbonsteel(LZ50steel[8]),aluminumalloy(7075[10])andstainlesssteel(316Lsteel[9])havebeeninvestigatedindetail.Recently,otherdifferentsteels(30CrNiMo8and17CrNiMo6alloysteels)havebeeninvestigatedunderthesameconditions.Thus,inthispaper,themechanismsofbendingfrettingfatigueareoutlinedaccordingtotheresultsobtainedfromthevariedmaterials.
2.BendingfrettingfatiguetestersandtestparametersOnahydraulicservofatiguetestmachine,throughthenewdesignofclamps,twocontactcon gurations(i.e.lineandpointcontacts)ofbendingfrettingfatiguecanbeful lledasshowninFig.2[8–10].ThetestrigofbendingfrettingfatigueasshowninFig.2ismountedonaT-slotofthepedestalofthefatiguemachine,andthedetailspecimengeometriesandmechanicalpropertiesofvariedmaterialsarerepresentedinFig.3andTable1.Anormalloadimposedonthefrettingpadsismaintainedataconstant
n
Correspondingauthor.Tel.:þ862887600715;fax:þ862887601304.E-mailaddress:zhuminhao@http://www.77cn.com.cn(M.H.Zhu).
0301-679X/$-seefrontmatter&2014ElsevierLtd.Allrightsreserved.
http://www.77cn.com.cn/10.1016/j.triboint.2013.12.018
134J.F.Pengetal./TribologyInternational76(2014)133–141
Fig.1.Threesimplefrettingfatigue
modes.
Fig.2.Twocontactcon gurationsofbendingfrettingfatiguetestrig.(a)Linecontactand(b)point
contact.
Fig.3.Bendingfrettingfatiguespecimengeometry.(a)30CrNiMo8,(b)7075alloy,(c)LZ50steeland(d)316Lsteel.
Table1
Mainmechanicalpropertiesofthematerials.Mechanicalproperties30CrNiMo8
7075AluminumalloyLZ50Steel316L
s0.2(MPa)
969604.0309.0282
sb(MPa)
1095647.4584.3555
E(GPa)21071210191
HV330150200135
level,whichcanbecalculatedbytheHertzcontacttheory,andthenormalloadismeasuredbyaloadcell.Thebendingstressescanbeloadedbythepistonofthehydraulicservomachine.The
frettingdamageoccursinthecontactzonebetweenthesampleandfrettingpad.
Inthispaper,thebendingfrettingfatiguebehaviorsofvariedcontactpairs,suchasLZ50/52100(sample/frettingpad),7075/52100,316L/52100,30CrNiMo8/17CrNiMo6and17CrNiMo6/40CrNi2MoA,weretestedandanalyzedwithcontactcon gura-tionsofcylinder-on- atandcylinder-on-cylinder.Thenormalcontactloadvariedfrom250Nto1000N,andthebendingloadvariedfrom4.75kNto8kN.Thetestfrequencywas20Hzallthetime.Thefrettingdamagezoneandfracturesurfacewereobservedbyanopticalmicroscopy(OM)andascanningelectricmicroscopy(SEM,Quanta2000)withEDX(EDAX-7760/68ME)
electron
J.F.Pengetal./TribologyInternational76(2014)133–141135
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