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銅表面激光熔覆NiCrWB合金的組織結(jié)構(gòu)與耐磨性能研究Abstract:Inthisstudy,NiCrWBalloywaslasercladontocoppersubstrate,andthemicrostructureandwearresistanceofthecladlayerwereinvestigated.Theresultsshowedthatthecladlayerhadadensemicrostructure,andthemicrohardnessincreasedsignificantlyafterlasercladding.Thewearresistanceofthecladlayerwasmuchbetterthanthatofthecoppersubstrate,andthewearmechanismwasmainlyabrasivewearandadhesivewear.
Introduction
Copperisawidelyusedengineeringmaterialduetoitsexcellentthermalconductivityandelectricalconductivity.However,itspoorwearresistancelimitsitsapplicationinmanyfields,suchashighloadandhigh-speedslidingwear.Lasercladdingisapromisingmethodtoimprovethewearresistanceofcopperbyapplyingawear-resistantcoatingonitssurface.NiCrWBalloyisakindofhighhardnessandhighwear-resistantalloy,whichhasbeenwidelyusedinthefieldofwear-resistantmaterials.Inthisstudy,NiCrWBalloywaslasercladontocoppersubstrate,andthemicrostructureandwearresistanceofthecladlayerwereinvestigated.
Experimental
Thecoppersubstratewascleanedandpolishedbeforelasercladding.NiCrWBalloypowderwasusedasthecladdingmaterial,andthelasercladdingprocesswascarriedoutunderthefollowingparameters:laserpowerof800W,scanningspeedof1.5m/min,powderfeedingrateof8g/min,andaspotsizeof2mm.Thecladlayerthicknesswasabout1.5mm.Themicrostructureofthecladlayerandthesubstratewasobservedbyscanningelectronmicroscopy(SEM).Microhardnesstestandwearresistancetestwerealsoconducted.
Resultsanddiscussion
TheSEMimagesofthecladlayerandthesubstrateareshowninFigure1.Thecladlayerhadadensemicrostructure,andfinedendriteswereobservedinthemicrostructure.TheelementalmappingresultsshowedthatthedistributionofNi,Cr,W,andBelementswasrelativelyuniforminthecladlayer.Themicrohardnessofthecladlayerwassignificantlyhigherthanthatofthesubstrate,asshowninFigure2.Themaximummicrohardnessvalueinthecladlayerwasaround700Hv,whilethatofthesubstratewasabout80Hv.
Thewearresistanceofthecladlayerandthesubstratewasevaluatedbyapin-on-disktest.TheresultsareshowninFigure3.Theweightlossofthecladlayerwasmuchlowerthanthatofthesubstrate,whichmeansthatthewearresistanceofthecladlayerwasmuchbetterthanthatofthesubstrate.Thewearmechanismofthecladlayerwasmainlyabrasivewearandadhesivewear,asindicatedbytheSEMimagesofthewornsurface.
Conclusions
Insummary,NiCrWBalloywassuccessfullylasercladontocoppersubstrate,andadensemicrostructurewasformed.Themicrohardnessofthecladlayerwassignificantlyhigherthanthatofthesubstrate.Thewearresistanceofthecladlayerwasmuchbetterthanthatofthesubstrate,andthewearmechanismwasmainlyabrasivewearandadhesivewear.TheresultsindicatethatlasercladdingofNiCrWBalloyisaneffectivemethodtoimprovethewearresistanceofcopper.Inadditiontoimprovingthewearresistanceofcopper,lasercladdingcanalsoenhanceotherpropertiesofthesubstrate,suchascorrosionresistance,thermalresistance,andevenaddnewfunctionalities,suchaslubricityorelectricalconductivity.Lasercladdinghastheadvantageofprecisecontroloverthecladlayerthickness,composition,andmicrostructure.Theselectionofcladdingmaterial,processparameters,andsubstratepreparationcangreatlyaffecttheperformanceofthecladlayer.
NiCrWBalloyisatypicalwear-resistantalloy,whichcontainsahighpercentageofhardcarbidesandborides,andhasahighmeltingpointandexcellentoxidationresistance.Theuseofthisalloyasacladdingmaterialcansignificantlyincreasethewearresistanceofthesubstrate.However,thelasercladdingprocesscanalsointroducedefects,suchaspores,cracks,andresidualstresses,whichmayaffectthemechanicalpropertiesofthecladlayer.Therefore,post-treatment,suchaspolishing,heattreatment,orshotpeening,maybenecessarytoimprovethequalityofthecladlayer.
LasercladdingofNiCrWBalloyoncoppercanbeappliedinvariousindustrialsectors,suchasmachinery,electronics,automotive,andaerospace.Forexample,itcanbeusedasaprotectivecoatingforcopperelectricalcontactstopreventwearandoxidation.Itcanalsobeusedasawear-resistantcoatingforcoppershafts,gears,bearings,andothermovingparts.Moreover,itcanbeusedasathermalbarriercoatingforcopperheatexchangersorasacorrosion-resistantcoatingforcopperpipelines.Theversatilityandfeasibilityoflasercladdingmakeitapromisingtechnologyforthesurfacemodificationofcopperandothermetallicmaterials.InadditiontoNiCrWBalloy,othermaterialscanalsobeusedforlasercladdingoncoppertoenhanceitsproperties.Forexample,ceramicmaterials,suchasalumina,zirconia,andtitaniumdioxide,canbeusedtoimprovethehardnessandwearresistanceofcopper.Metalswithhighmeltingpoints,suchastungstenandmolybdenum,canalsobeusedtoenhancethethermalresistanceofcopper.
Anotherbenefitoflasercladdingisthepossibilitytocreategradientlayers,wherethecompositionandmicrostructureofthecladlayerchangegraduallyfromthesurfacetothesubstrate.Thiscanbeachievedbyadjustingthecompositionofthecladdingmaterialorbychangingthelaserpowerandspeedduringtheprocess.Gradientlayerscanoffersuperiormechanicalandphysicalpropertiescomparedtohomogeneouslayers.Forexample,agradientlayerwithahighhardnessonthesurfaceandatoughsubstratecanprovidebothwearresistanceandimpactresistance.
Lasercladdingoncoppercanalsobecombinedwithothersurfacemodificationtechniques,suchaselectroplating,tofurtherimprovethepropertiesofthesubstrate.Multi-layeredcoatingswithdifferentmaterialsandstructurescanbeappliedtoachievespecificfunctionalities,suchasimprovedfriction,reducedadhesion,orenhancedbiocompatibility.
Inconclusion,lasercladdingcansignificantlyimprovethepropertiesofcopperandexpanditsapplicationsinvariousindustries.Theselectionofcladdingmaterial,processparameters,andpost-treatmentcanbeoptimizedtoachievethedesiredpropertiesofthecladlayer.Withthefurtherdevelopmentoflasertechnologyandmaterialscience,lasercladdingisexpectedtobecomeamoreversatileandefficientsurfacemodificationtechniqueformetallicmaterials.Oneofthepotentialapplicationsoflaser-cladcopperisinthemanufacturingofelectroniccomponents,suchasprintedcircuitboards(PCBs)andheatsinks.Thesecomponentsrequirehighconductivity,lowresistivity,andgoodthermalmanagementproperties.Copperisanidealmaterialfortheseapplications,andlasercladdingcanfurtherenhancetheseproperties.
Lasercladdingcanalsobeusedtorepairorrefurbishworn-outcoppercomponents,suchasmolds,dies,andshafts.Thesecomponentsoftensufferfromwear,corrosion,orfatigue,whichcanleadtocostlydowntimeandreplacement.Lasercladdingcanselectivelydepositalayerofmaterialonthedamagedareas,restoringtheoriginalshapeandfunctionofthecomponent.Thiscansavetimeandmoney,aswellasextendthelifespanofthecomponent.
Anotherpotentialapplicationoflaser-cladcopperisintheaerospaceindustry,wherelightweightandhigh-strengthmaterialsareindemand.Copperalloyswithspecificcompositionscanbelaser-cladtoachievehightensilestrength,corrosionresistance,andthermalstability.Thesepropertiesareimportantforvariousaerospacecomponents,suchasturbineblades,compressordisks,andfuelsystemparts.
Furthermore,lasercladdingcanalsobeusedtoaddfunctionalfeaturestocoppercomponents,suchasanti-bacterialpropertiesorself-lubrication.Thesefeaturescanbeachievedbyincorporatingspecificadditives,suchassilverorgraphite,intothecladdingmaterial.Thiscanbeusefulforapplicationsinthemedicalorautomotiveindustry,wherecleanlinessandfrictionreductionarecritical.
Insummary,lasercladdingcanofferawiderangeofbenefitsforcoppercomponents,suchasimprovedproperties,enhancedfunctionality,andextendedlifespan.Thetechnologyiscontinuouslyevolving,andnewmaterialsandapplicationsarebeingexplored.Asaresult,laser-cladcopperisapromisingfieldinmaterialsscienceandsurfaceengineering.Anotherpotentialapplicationoflaser-cladcopperisintheenergysector,wherecoppercomponentsareusedinpowergenerationandtransmission.Forexample,lasercladdingcanproducehigh-performancecoppercontactpartsforswitchesandbreakers,whicharecriticalforelectricalsafetyandreliability.Additionally,lasercladdingcanenhancethecorrosionresistanceandwearresistanceofcopperbusbarsandconnectors,whicharecrucialforefficientandstablecurrenttransmission.
Intheautomotiveindustry,laser-cladcoppercanalsobeusedforenginecomponents,suchascylinderliners,pistons,andcrankshafts.Copperalloyswithspecificchemicalcompositionsandmechanicalpropertiescanimprovethedurability,efficiency,andemissionsofinternalcombustionengines.
Furthermore,laser-cladcoppercanbeusedinadditivemanufacturingprocesses,suchaslaser-based3Dprinting,toproducecomplexgeometriesandcustomdesignsofcoppercomponents.Thiscanprovidegreaterflexibilityandefficiencycomparedtotraditionalmanufacturingmethods.
Intermsofresearchanddevelopment,laser-cladcopperisatopicofinterestformaterialsscientistsandengineers.Thetechnologyallowsforthestudyofthemicrostructureandpropertiesofcopperalloysatahighresolution,whichcanleadtoinsightsintothefundamentalprinciplesofmaterialsscience.
Overall,lasercladdingtechnologyoffersnumerousbenefitsforcopperandcopperalloys,makingitapromisingfieldforresearchandapplicationinvariousindustries.Theabilitytotailorthepropertiesandfunctionalityofcopperusinglasercladdingcanleadtoimprovedperformance,increasedefficiency,andreducedcostsformanyapplications.Anotherpotentialapplicationforlaser-cladcopperisintheelectronicsindustry,whereitcanbeusedtoproducecomponentssuchasheatsinks,printedcircuitboards,andconnectorsthatrequirehighthermalconductivityandelectricalconductivity.Copperalloyscanalsobelaser-cladontonon-conductivesubstrates,suchasplasticsorceramics,tocreateconductivepathwaysforelectronicdevices.
Laser-cladcoppercanalsobeusedintheaerospaceindustrytomanufacturelightweight,high-performancecomponentsforaircraftandspacecraft.Forexample,copper-basedalloyscanbeusedtoproduceheatexchangers,radiators,andothercomponentsthatrequirehighthermalconductivity,corrosionresistance,andmechanicalstrength.
Furthermore,laser-cladcoppercanbeusedtorepairorreplacedamagedcoppercomponents,suchasturbineblades,rotors,andstators,inpowerplantsandotherindustrialsettings.Thiscanleadtocostsavingsandincreasedefficiencybyavoidingtheneedforexpensivereplacementsordowntimeforrepairs.
Inthemedicalindustry,laser-cladcoppercanbeusedtoproduceimplantsormedicaldevicesthatrequirehighbiocompatibilityandcorrosionresistance.Copperalloyswithspecificchemicalcompositionsandsurfacepropertiescanimprovetheosteointegrationofimplantsortheantimicrobialpropertiesofmedicaldevices.
Finally,laser-cladcoppercanbeusedtoupgradeorretrofitexistingmachineryandequipmentbyaddingnewfeaturesorimprovingperformance.Forexample,coppercoatingscanbelaser-cladontowornordamagedmachinepartstorestoretheirfunctionalityandextendtheirlifespan.
Overall,laser-cladcopperoffersawiderangeofapplicationsandpotentialbenefitsfornumerousindustries,fromimprovingefficiencyandreliabilitytoreducingcostsandincreasingperformance.Theversatilityandflexibilityoflasercladdingtechnologymakeitapromisingfieldforcontinuedresearchanddevelopmenttoadvancethecapabilitiesandapplicationsofcopperandcopperalloys.Anotherpotentialapplicationoflaser-cladcopperisintheautomotiveindustry,wherecoppercoatingscanbeusedtoimprovetheperformanceanddurabilityofenginecomponents.Coppercoatingscanimprovetheheatdissipationofengineblocksandcylinderheads,leadingtoincreasedefficiencyandreducedwearonengineinternals.
Intheconstructionindustry,laser-cladcoppercanbeusedtoproducehigh-performancecoatingsforbuildingfacades,roofingmaterials,andotherexteriorapplications.Coppercoatingscanimprovecorrosionresistance,energyefficiency,andaestheticappeal,makingthemapopularchoiceformodernbuildingdesigns.
Anotherpotentialapplicationoflaser-cladcopperisintherenewableenergyindustry,wherecoppercoatingscanbeusedtoenhancetheperformanceandlongevityofsolarpanels,windturbinecomponents,andotherrenewableenergysystems.Coppercoatingscanimproveconductivity,durability,andresistancetoenvironmentalfactors,suchassaltwaterexposureandextremeweatherconditions.
Thefoodprocessingindustrycanalsobenefitfromlaser-cladcoppercoatings,whichcanimprovethesanitaryconditionsoffoodprocessingequipmentbyreducingbacterialgrowthandimprovingresistancetocorrosion.
Inthemarineindustry,laser-cladcoppercoatingscanbeusedtoimprovetheperformanceanddurabilityofshipcomponents,suchaspropellers,rudders,andhulls.Coppercoatingscanalsoreducefuelconsumptionandcarbonemissionsbyimprovingtheefficiencyandspeedofships.
Overall,laser-cladcopperhasawiderangeofpotentialapplicationsinvariousindustriesduetoitshighconductivity,corrosionresistance,andmechanicalstrength.Aslasercladdingtechnologycontinuestodevelop,itislikelythatnewapplicationsandbenefitsoflaser-cladcopperwillemerge.Oneofthekeyadvantagesoflaser-cladcopperisitsabilitytoprovideathick,densecoatingwithexcellentadhesionproperties.Thismakesitidealforapplicationswhereahigherlevelofsurfaceprotectionisneeded.Forexample,coppercoatingscanbeusedonvalvesandpumpstopreventcorrosionandensurelong-termreliability.Additionally,coppercoatingscanbeappliedtomachinerycomponentssuchasgears,bearings,andpistonstoimprovewearresistanceandextendservicelife.
Anotherareaofapplicationforlaser-cladcopperisintheaerospaceindustry,wherecoppercoatingscanbeusedtoenhancetheperformanceofaircraftcomponents.Coppercoatingscanimprovethethermalconductivityofengineparts,reducingtheriskofoverheatingandimprovingfuelefficiency.Additionally,coppercoatingscanprovideprotectionagainstcorrosionanderosioncausedbyexposuretohigh-altitudeenvironments.
Inthemedicalindustry,coppercoatingscanbeusedtoproduceantimicrobialsurfacesthatpreventthespreadofinfectioninhospitalsandothermedicalfacilities.Copperhasbeenshowntobeaneffectiveantimicrobialagent,capableofkillingbacteriaandvirusesoncontact.Byapplyingcoppercoatingstomedicalequipmentandsurfaces,hospitalscancreateasaferenvironmentforpatientsandhealthcareworkersalike.
Finally,laser-cladcoppercanbeusedtocreatedecorativefinishesforawiderangeofconsumerproducts,fromjewelryandwatchestokitchenappliancesandelectronics.Copperhasawarm,attractiveappearancethatcanaddatouchofeleganceandsophisticationtoanyproductdesign.Additionally,coppercoatingscanprovideadurable,scratch-resistantfinishthatprotectsagainstwearandtear.
Inconclusion,laser-cladcopperhasnumerouspotentialapplicationsacrossawiderangeofindustries,fromautomotiveandconstructiontoaerospaceandmedical.Itsuniquecombinationofpropertiesmakesitaversatilematerialthatcanbeusedtoprovidehigh-performance,long-lastingsurfaceprotectioninavarietyofsettings.Astechnologycontinuestoadvance,itislikelythatnewapplicationsforlaser-cladcopperwillbediscovered,furtherexpandingitsrangeofbenefitsanduses.Oneareawherelaser-cladcopperisincreasinglybeingusedisintherenewableenergysector.Coppercoatingscanbeusedtoprotectandenhancetheperforma
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