简介:Carbon-containingrefiactoriesareeasilyoxidizedathightenperature,thusmakingserviceliferapidlydrop.Theanti-oxidationmethods,suchasimpregnationandaddinganti-oxidatonagents,can'tmeettherequire-mentsofindustry'sdevelopmentandsomespecialcases,Byanalyzingthecharcteristicsofseveraloxidesandnon-oxidesrawmaerials,theoxidationresistantmechanismoftherefractoryanti-oxidationcoatings(RAOC),whichpossessthecharacteristcofself-healingathighttemperature,isdiscussed.
简介:Inthebeginningissueof2016,China'srefractoriesinvitedDr.ValeriyMartynenko,thedirectorofUkrainianResearchInstituteofRefractoriesnamedafterA.S.Berezhnoytobetheexecutiveeditor-in-chief.Itisarealinternationalissue.EightpapershavebeenpresentedbyresearchersfromUkraine,Canada,CzechRepublic,Brazil,IsraelandRussia.Twopapers
简介:Thepaperanalysesredoxreactionsofan-tioxidantsSiandSiCeteatdifferentpositionsinthecourseofoxidationofcarbon-containingmaterials,Itispointedoutthatredoxreactionofantioxidantsinoxidized-zoneplaysaveryimportantpartinantioxidationofcarbon-con-tainingmaterials,ThereasonwhySiCcanmakecarbon-containingmaterialantioxideatthermodynamictemperaturehasbeenex-plained,Experimentprovesthatantioxidantsinoxidizedzonecanmakecarbon-containingmaterilsantioxidize.
简介:Inthispaper,basedonthreedifferentkindsofceramicsidedamsforthinstripantinuouscasting,thefrictionandwearingpropertywerestudied.Theeffectsoffrictionpressure,temperatureandfrictiontimeonthefrictionandwearingpropertyoftheceramicsidedamwereresearched.What’smore,thefrictionmechanismandwearingmechanismoftheceramicsidedamwereresearchedaswell.ResultsshowthattheceramicsidedamofBN-SiAlONhasthebestwearingresistanceproperty.whileatroomtemperature,16minoffrictiontimeand0.35MPaoffrictionpressure,thetestfrictioncoefficientis0.60andwearingcapacityis272.358mm~3.Inaddition,whenat400℃,16minoffrictiontimeand0.18MPaoffrictionpressure,thetestfrictioncoefficientis0.70.Thefrictionmechanismofceramicsidedamwiththeoppositewearingmaterialismainlythecompositewearofadhesion,abrasiveandfatigue.
简介:O'-sialon-ZrO2compositebasedonthecheapcommercialavailablezirconandsiliconasrawmaterialscanbeachievedbyusingreac-tionnitridationmethod,Moreattentionwasgiventothenitridingprocessandtheeffectofadditivesonit.Theexperimentalresultsshowthattherearetwonitridationpaths:oneisthedirectnitridationofsiliconpowderandtheotheristhroughthereactionbetweenthemedi-umcompoundZrSi2andthenitrogen.Theeffectsofadditionofcalciaandtheincorpora-tionofBNonthenitridingreactionwerealsoinvestigated,theprimitiveexperimentalresultsdemonstratedthatbothofcalciaandBNcoulddeterioratethenitridingdegree.
简介:ThispapertestifiesthataluminiumandsiliconaswellastheircarbidexandnitridescanreactwithCOincarbon-containingzonetoformAl2O3andSiOgasthroughexperimentandthermodyanmicanalysis,ThegasesdiffusetooxidizedzoneandreactwithoxidizerssuchasCO2,Asaresult,Al2O3andSiO2aredepositedfromthegases,wihichblockthepores,thusreducetheamountofgasdiffusionandincreaseoxidationresistnaceofcarbon-containingmaterials.
简介:Thecorrosionofrefractoriesresultsfromreactivetransport,namely,transportofagentsandchemicalreactionsoftheseagentswithimpregnatedmedium.Ononehand,thetransportinvolveseitherdiffusionorimpregnationdependingonthestateofthecorrosiveagentsandthemicrostructureofthehostmedia.Ontheotherhand,chemicalreactionsmaybeverynumerousandcomplex.ThisstudyfocusedonthereactiveimpregnationofAl2O3-CaOslagintoporoushighaluminarefractory.Thetransportpropertiesoftherefractorymaterialwereidentifiedbymeansofadedicatedcapillaryrisingtest.ChemicalreactionsbetweenthesolidhighaluminaskeletonandAl2O3-CaOslaginvolvesuccessivedissolution/precipitationmechanismsformingaluminatesoflime.Contrarytothethermodynamicpropertiesofthebinarysystem,thekineticsofthesesolid/liquidreactionsisnotwellknown.Corrosiontestsassociatedwiththequenchingmethod,XRDanalyseswereperformedforabetterunderstandingofthekinetics.Theresultsofthisstudyopenupacouplingapproachforpredictingthecorrosionwearofrefractory.