简介:Sincethe21stcentury,greatattentionhasbeenpaidtoultrafastcooling(UFC)technologyinthewholeworld.Theindustriesandtheresearchinstitutionsbegantocarryoutinvestigationsonbasictheoriesandindustrialapplications.Since2003,theRALofNortheasternUniversityhasmadesomeprogressesonmicrostructurecontroltheories,understandingofstrengtheningmechanismsandtheirindustrialapplications.Inthispaper,theseachievementssincethelastBaosteelBACin2008willbereportedontheindustrializationofUFC,strengtheningmechanism,developmentofnewsteelgrades,andsoon.
简介:Twothermo-mechanicalcontrolledprocesses(TMCP)includingcontrolledrollingandacceleratedcoolingareproposedfortheproductionofheavygaugeSUS304Lausteniticstainlesssteelplateswithdifferentstrengthsandothercharacteristics.BasedontherecrystallizationmechanismandcarbideprecipitationbehaviorofSUS304Lausteniticstainlesssteel,TMCPprovidesapowerfulmeanstocontrolthemicrostructureandprecipitationofthehotrolledsteelplatebythecontrolledrollingandacceleratedcoolingprocess.Thedislocationdensityandgrainsizearethemainfactorsindeterminingthestrengthofthestainlesssteelplates.Therefore,itisnecessarytostrictlycontrolthehotrollingparameters,includingparameterssuchasthefinishhotrollingtemperatureintherecrystallizationtemperatureregionandthetotalreductioninthenon-recrystallizationregion.Furthermore,inordertoavoidcarbideprecipitationandguaranteetheintergranularcorrosionresistanceofTMCPSUS304Lausteniticstainlesssteel,acriticalcoolingrateafterrollingisdetermined.
简介:切分轧制作为棒材、线材轧制成型的新生儿,其成型效率比较高,结构简单,在建筑领域的圆钢、螺纹钢的成型中占有重要的地位。本文阐述了切分轧制技术的发展趋势。
简介:Toavoidintergranularcorrosionandobtainmicrostructuralhomogenization,theconventionalSUS304austeniticstainlesssteelneedstobesolutionannealedafterhotrolling.Thisstudyinvestigatesthethermal-mechanicalcontrolledprocess(TMCP)ofSUS304steel,especiallythecontrolledrollingandonlineacceleratedcoolingprocedures.Theobjectiveofthisresearchistoreduceorevenpreventcarbideprecipitationbasedonthedescriptionofthetime-temperature-precipitation(TTP)curve.Thedynamicandpost-dynamicrecrystallizationbehaviorsofthissteelensuredthehomogenizationofgrainsinthisprocessdueto,whichwasstudiedbythehotcompressiontests.ThemicrostructureandthepropertiesoftheTMCP-producedSUS304steelstripwerecomparedwiththeconventionalmethodofsolutionannealing.Basedontheaboveresults,thenewlydevelopedTMCP-producedSUS304hot-rolledausteniticstainlesssteelstriphasbeensuccessfullyproducedanditcanbedirectlyutilizedinthecoldrollingprocesswithoutsolutionannealing.