資源描述:
《Ti復(fù)合材料的顯微組織和力學(xué)性能的影響.pdf》由會(huì)員上傳分享,免費(fèi)在線閱讀,更多相關(guān)內(nèi)容在行業(yè)資料-天天文庫(kù)。
1、Availableonlineatwww.sciencedirect.cornTransactionsofScienceDirectNonferrousMetalsSocietyofChinaELSEVIERPressTrans.NonferrousMet.Soc.China24(2014)1737—1743wWW.tnmsc.cnMicrostructureandmechanicalpropertiesof(TiB十La203)/TicompositesheattreatedatdirenttemperaturesXiang—longGUO,Li—qiangWANG,Ji.ning
2、Q,Wei-jieLO,DiZHANGStateKeyLaboratoryofMetalMatrixComposites,ShanghaiJiaoTongUniversity,Shanghai200240,ChinaReceivedI1March2013;accepted8March2014Abstract:Near-atitaniummatrixcompositesreinforcedwithTiBandLa,O1weresynthesizedbycommoncastingandhot—workingtechnology.Theeffectsofheattreatmenttempe
3、ratureonthemicrostructureandthetensilepropertiesoftheinsitusynthesized(TiB+La2O3)/Tiwerestudied.Microstructurewasstudiedbv0MandTEM。andtensiletestswerecarriedoutatroomtemperatureand923K,respectively.Resultsshowthatwiththeincreaseofflheattreatmenttemperature,priorflphasegrainsizeincreasesandacolo
4、nysizedecreases.Roomtemperaturetensilestrengthincreaseswiththeincreaseofheattreatmenttemperature,whichcanbeattributedtothedecreaseofacolonysizewiththeincreaseofheattreatmenttemperature.However,high—temperaturetensilestrengthdecreaseswiththeincreaseofheattreatmenttemperatureandthedecreaseofthehi
5、gh—temperaturetensilestrengthisduetotheincreaseofthepriorflphasegrainsize.Keywords:titaniummatrixcomposites;microstructure;mechanica1propertiestraditional(o[斗)heattreatment,heattreatmentoffersalIntrOductiOnfully1amellarmicrostructure.whichimprovesthecreepresistance,high.temperaturetensilestreng
6、th,oxidationAsaresultoftheincreasinglysevererequirementresistanceandfracturetoughnesspropertiesoftheforhigh—performancestructuralmaterialintheaerotitaniumalloy.ZHANGetal『91reportedthatheatindustry,titaniummatrixcompositeshavebeentreatmentmethodcangreatlychangethemicrostructureextensivelystudied
7、duetothelowdensit),,hi曲strength,andmechanicalpropertiesofTi-6A1-2Cr一2Mo-2Sn-highmodulusandcorrosionresistance[卜3】.Moreover,2Zralloy.FILIPetal『101demons仃atedthatheatconventionaltechniques,suchaspowdermetallurgy,treatmentleadstohigh