Study on mechanical properties and constitutive model of 5052 aluminium alloy

Abstract

The stress–strain relationship of 5052 aluminium alloy was investigated via quasi-static tensile tests and split Hopkinson pressure bar tests. The specimens were exposed to various temperatures (25–500°C) and strain rates (10−4–0.7 × 104 s−1). At strain rates ranging from 0.001 to 3000 s−1, the material underwent significant work hardening. When the strain rate exceeded 5000 s−1, the work hardening effect decreased and the flow stress was relatively constant. The Johnson–Cook constitutive model was modified to describe the deformation behaviour of the material subjected to high temperatures and strain rates. The accuracy of the modified model was verified through ballistic impact testing.