Abnormal grain growth in annealing cast Cu–Al–Mn–V alloys and their superelasticity

Abstract: Metals are usually difficult to fabricate bulk materials with a large grain size over cm-scale only through heat treatment with neither directional solidification nor macroscopic deformation. This paper reports a novel method to obtain large grains and single crystals over cm-scale only through simply annealing polycrystalline cast Cu-Al-Mn-V shape memory alloys. The results show that the abnormal grain growth (AGG) directly occurs when cast alloys are annealed at 1173 K, and ultra-large grains and single crys… Show more

“…(4) AGG may be attributable to a misorientation gradient. The dissolution of nanoparticles during annealing in shape memory alloys leads to form a continuous misorientation gradient inside the grains, and AGG is driven by the continuous misorientation gradient [22][23][24].…”

Abnormal grain growth induced by <112̄0> orientation of AZ31 magnesium alloy

“…(4) AGG may be attributable to a misorientation gradient. The dissolution of nanoparticles during annealing in shape memory alloys leads to form a continuous misorientation gradient inside the grains, and AGG is driven by the continuous misorientation gradient [22][23][24].…”

Abnormal grain growth induced by <112̄0> orientation of AZ31 magnesium alloy

Abnormal Grain Growth and Single Crystals in Multicomponent Shape-Memory Alloys

Influence of energy area densities on microstructure evolution and properties of laser direct energy deposited Ni-Co-Mn-Al-Y magnetic shape memory alloy