简介:ThedistributionsoftheaxialstressandshearstressinAl2O3-TiC/Q235diffusionbondedjointswerestudiedusingfiniteelementmethod(FEM).Theeffectofinterlayerthicknessontheaxialstressandshearstresswasalsoinvestigated.Theresultsindicatethatthegradientsoftheaxialstressandshearstressaregreatnearthejointedge.ThemaximalshearstressproducesattheinterfaceoftheAl2O3-TiCandTiinterlayer.WiththeincreaseofCuinterlayerthickness,themagnitudesoftheaxialstressandshearstressfirstdecreaseandthenincrease.Thedistributionoftheaxialstresschangesgreatlywithalittlechangeintheshearstress.TheshearfractureinitiatesattheinterfaceoftheAl2O3-TiC/TiinterlayerwithhighshearstressandthenpropagatestotheAl2O3-TiCside,whichisconsistentwiththestressFEMcalculatingresults.
简介:Comparisonsofparticle'sthermalbehaviorbetweenFe-basealloyandboroncarbideinplasmatransferred-arc(PTA)spacewasmadebasedontheoreticalevaluationresultsinthisarticle.ItwasfoundthatmostoftheFebaseparticleswouldbefullymeltedwhiletheytransportingthroughthecentralplasmafieldwith200Asurfacingcurrents.Andtheparticleswithadiameterlessthan0.5×10-4mmightbefullyevaporated.However,fortheboroncarbide(B4C)particles,onlytheonewithadiameterlessthan0.5×10-4mcouldbemeltedinthesamePTAspace.MostofB4CparticlesareonlypreheatedatitssolidstatewhentheywerefedthroughthecentralfieldofPTAplasmawhenthesurfacingcurrentisequaltoorlessthan200A.Whenthearccurrentwassmallerthan100A,onlytheparticlessmallerthan0.5×10-4mcouldbemeltedinthePTAspacefortheFe-basealloy.AlmostnoneofthediscussedB4Cparticlescouldbemeltedinthe100APTAspace.