【摘 要】
:
This paper presents a new thermomechanical model of friction stir welding which is capable of simulating the three major steps of friction stir welding (FSW) process,i.e.,plunge,dwell,and travel stages.A rate-dependent JohnsonCook constitutive model is ch
【机 构】
:
Department of Mechanical and Industrial Engineering,Louisiana State University, Baton Rouge, LA 7080
论文部分内容阅读
This paper presents a new thermomechanical model of friction stir welding which is capable of simulating the three major steps of friction stir welding (FSW) process,i.e.,plunge,dwell,and travel stages.A rate-dependent JohnsonCook constitutive model is chosen to capture elasto-plastic work deformations during FSW.Two different weld schedules (i.e.,plunge rate,rotational speed,and weld speed) are validated by comparing simulated temperature profiles with experimental results.Based on this model,the influences of various welding parameters on temperatures and energy generation during the welding process are investigated.Numerical results show that maximum temperature in FSW process increases with the decrease in plunge rate,and the frictional energy increases almost linearly with respect to time for different rotational speeds.Furthermore,low rotational speeds cause inadequate temperature distribution due to low frictional and plastic dissipation energy which eventually results in weld defects.When both the weld speed and rotational speed are increased,the contribution of plastic dissipation energy increases significantly and improved weld quality can be expected.
其他文献
Thin films of CdSe and silver (Ag)-doped CdSe have been prepared on glass substrates by thermal evaporation in argon gas atmosphere.X-ray diffraction pattern indicates the presence of hexagonal structure with preferred orientation along (100)plane.Element
Hydrogen dissolved in metals as a result of internal and external hydrogen can affect the mechanical properties of the metals,principally through the interactions between hydrogen and material defects.Multiple phenomena such as hydrogen dissolution,hydrog
As a kind of lightest engineering metallic materials,magnesium alloy plays significant roles in industry.The applications of magnesium alloys bring about significant benefits in the aspects of energy conservation and emissions reduction.With the issues of
Self-lubricating copper matrix composites reinforced with graphene were prepared by electroless plating and powder metallurgy.The morphology and structure of graphene,Cu@graphene powder,and Cu@graphene/Cu composites were characterized and the tribological
In this review paper,the research progress on corrosion behavior of hexagonal close-packed (HCP) singular phase,body cubic-centered (BCC) singular phase and (HCP + BCC) duplex-structured Mg-Li alloys has been summarized and reviewed,and the future trend a
Particle reinforced magnesium matrix composite (PMMC) possesses the merits of high specific strength,high specific modulus,better dimensional stability,good wear resistance and lower production cost,which is thought as a promising material in the field of
Novel crystallization behaviors of Zr55Cu30Al1oNi5 bulk metallic glass are investigated.On the one hand,mixed oxides,including CuO,CuAlO2,CuAl2O4 and ZrO2,show sequential oxidation process determined by coupling effects of specific cyclic load and tempera
The defects created in commercial dental alloys during blasting with alumina particles propelled in compressed air under pressure 0.1 and 0.4 MPa have been studied using positron annihilation spectroscopy,scanning electron microscopy and X-ray diffraction
A series of Ti2ZrHf0.5VNbx (x =0,0.25,0.5,0.75 and 1.0) refractory high-entropy alloys were prepared to investigate the alloying effect of Nb on the microstructures and mechanical properties.All the alloys displayed a simple BCC structure.The microstructu
The development of high-entropy alloys (HEAs) has stimulated an ever-increasing interest from both academia and industries.In this work,three novel MoNbFeCrV,MoNbFeCrTi,and MoNbFeVTi HEAs containing low thermal neutron absorption cross section elements we