مقاله جوشکاری با عنوان : Electrical contact resistance effect on resistance spot weldingP.S. Wei a,., T.H. Wub چکیده :The effects of local electrical contact resistance on transport variables, cooling rate, solute distribution,and nugget shape after solidification responsible for microstructure of the fusion zone during resistancespot welding are realistically and systematically investigated. The model accounts for electromagneticforce, heat generation and contact resistances at the faying surface and electrode–workpiece interfacesand bulk resistance in workpieces. Contact resistances are composed of film and constriction resistances,as functions of hardness, temperature, electrode force and surface condition. The computed results showthat the bulk dynamic electrical resistance cannot reliably reflect transport processes and nugget shape,unless the local constriction resistance and electric current density are known. Regardless of high filmresistance, nugget growth and transport processes are independent of film resistance due to delayedresponse time of local electric current in the early stage. A decrease in constriction resistance, however,delays nugget formation, enhances convection and solute mixing, and changes circulation direction of thestronger convection cell during cooling period.
مقاله جوشکاری با عنوان : Electrical contact resistance effect on resistance spot weldingP.S. Wei a,., T.H. Wub چکیده :The effects of local electrical contact resistance on transport variables, cooling rate, solute distribution,and nugget shape after solidification responsible for microstructure of the fusion zone during resistancespot welding are realistically and systematically investigated. The model accounts for electromagneticforce, heat generation and contact resistances at the faying surface and electrode–workpiece interfacesand bulk resistance in workpieces. Contact resistances are composed of film and constriction resistances,as functions of hardness, temperature, electrode force and surface condition. The computed results showthat the bulk dynamic electrical resistance cannot reliably reflect transport processes and nugget shape,unless the local constriction resistance and electric current density are known. Regardless of high filmresistance, nugget growth and transport processes are independent of film resistance due to delayedresponse time of local electric current in the early stage. A decrease in constriction resistance, however,delays nugget formation, enhances convection and solute mixing, and changes circulation direction of thestronger convection cell during cooling period.