2205双相不锈钢/16MnR 爆炸复合板界面的微观组织

为了研究2205双相不锈钢/16MnR 爆炸复合板界面的微观结构,用金相显微镜和扫描电镜(SEM)观察了复合界面的形貌;用显微硬度计测定了爆炸复合界面的显微硬度;分析了热处理对显微硬度的影响。研究表明:基材和复材的显微硬度随着退火加热温度的提高和保温时间的延长而降低;2205双相不锈钢在850℃加热保温8h后炉冷到400℃出炉空冷会析出相。

Microstructure of the bonding interface in an explosively cladded 2205 duplex stainless steel-16MnR steel combination

Theexperimentalsamplewiththedimensionsof25mm50mmwasformedwitha4-mmthickness2205duplexstainlesssteel(DSS)plateastheflyerbaseanda20-mm-thichness16MnRsteelplateasthebaseplatebyexplosivecombination.Theflyerplateandbaseplateweretreatedwithdifferentmethods,respectively.ThebondinginterfacemorphologywasobservedwithaNikonEpiphot200inverted microscopeanda HitachiS-3000Nscanningelectron microscope (SEM).Thewholebondinginterfaceismadeofstraightandvorticalbondzonesandcanbedividedintomeltandplasticdeformationzones.AndEnergydispersivespectroscopyanalysisdisplaysthatthebondinginterfacetakesonasatisfactorymetallurgicalbond.TheexperimentalsampleswereannealedinanelectricresistancefurnaceSX-4-10andthemicrohardnesswasmeasuredbyanHV-1000cleraometer.Afterthesamplewasheat-treatedat850℃for8handcooleduntil400℃,andcooledinair,inthe2205DSSplatetherewas-phaseprecipitatedintheaustenite-ferriteinterspaceorinferrite.Andafterthesamplewasheat-treatedat700℃for8handcooleduntil400℃,andcooledinair,therewasnot-phaseobservedinthebondinginterface.Analysisofheattreatmentinfluencesonthemicrohardnessindicatesthatthemicrohardnessofthebaseandflyerplatesdecreaseswiththeincreasngoftemperatureandtimeofheattreatment.