Fatiguedesignofnuclearclass1pipingconsideringthermalstratificationOriginalResearchArticle

InASMEB&PVCode,SectionIII,SubsectionNB-3600,thermalstratificationisnottakenintoaccounttodeterminethepeakstressintensityrangeforfatiguedesignofnuclearclass1piping.Therefore,theeffectsofseveralparameterssuchasboundarylayerthickness,temperaturedifference,stratificationlength,wallthickness,innerdiameterandmaterialpropertiesonpeaktemperatureandpeakstressintensityduetonon-lineartemperaturedistributionofthermalstratificationinapipecross-sectionarestudiedthroughthenumericalparametricstudy.TheresultsoftheparametricstudyarecloselyexaminedandconsolidatedtointroduceanadditionaltermintotheequationofASMEsothatthemodifiedequationcanbeusedtodeterminethepeakstressintensityrangeduetoallloadsincludingthermalstratification.