Modeling the Effect of Residual Stress on the Ductile Fracture Behavior of an Aluminum Alloy 5083-H116
The influence of residual stress on the ductile fracture behavior of an aluminum alloy 5083-H116 is investigated in this study through a series of experiments and finite element analyses.A recently developed stress state dependent I1-J2-J3 plasticity model,is implemented to describe the plastic response of this material.A ductile failure criterion based on the damage parameter defined in terms of the accumulative plastic strain as a function of the stress triaxiality and Lode angle is established.The calibrated I1-J2-J3 plasticity model and ductile failure model are utilized to study the residual stress effect on ductile fracture resistance.A local out-of-plane compression approach is employed to generate residual stress fields in the compact tension specimens.Fracture tests of C(T) specimens having zero,positive and negative residual stresses are conducted.The numerical results,such as load-displacement curves and crack front profiles,are compared with experimental measurements and good agreements are observed.Both experimental and finite element results show significant effect of residual stress on ductile fracture resistance.
Ductile fracture Plasticity Damage accumulation Stress triaxiality Lode angle
Xiaosheng Gao Jun Zhou ayden
Department of Mechanical Engineering,The University of Akron,Akron,OH 44325,USA Alloy Development and Mechanics Branch,Naval Surface Warfare Center,West Bethesda,MD 20817,USA
国际会议
北京
英文
1-10
2013-06-16(万方平台首次上网日期,不代表论文的发表时间)