Measurement of Dislocation Density Change during Tensile Deformation in Coarse-Grained Aluminum by <i>In-Situ</i> XRD Technique with Tester Oscillation
Hiroki Adachi, Hiroshi Mizowaki, Masahiro Hirata, Daisuke Okai, Hidetaka Nakanishi
Abstract
By conducting in-situ XRD measurement during tensile deformation while oscillating the tensile tester, it was possible to measure the change in dislocation density of a pure aluminum alloy having coarse grains with the grain size of 20 µm. In the coarse-grained material, the dislocation density during tensile deformation changed through four regions, as in the case of the fine-grained material. Since the dislocation multiplication start stress was very low at 22 MPa, the elastic deformation region was very short. Thereafter, the dislocations multiplied rapidly, but when the stress and dislocation density reached 33 MPa and 1.57 × 1014 m−2, respectively, the dislocation multiplication rate was greatly reduced. This is considered to be due to the low dislocation density required to progress the deformation by plastic deformation in coarse-grained aluminum.