A study on the subgrain superplasticity of extruded Al-Al3Ni eutectic alloy

A directionally solidified Al-Al3Ni eutectic alloy was extruded to obtain micron-size subgrains with 111-plane fiber texture. The extrusion temperature was varied to have different distributions of the Al3Ni eutectic particles. Choosing the fiber axis as the loading axis, the tensile test results at 500 C indicate that the elongation is concave downward and strain-rate dependent. Reducing the number of intragranular particles increases the maximum elongation as well as the strain rate of maximum elongation. With the particles residing only intergranularly in the as-extruded state, the maximum elongation, which occurs under the initial strain rate of 6.3 x 10 exp -3/s, is about 300 percent. This subgrain superplasticity is associated with low strain-rate sensitivity but high resistance against strain softening. The fiber texture is always retained, and the microstructure reveals slip of long parallel dislocations. If intragranular particles are also present in the as-extruded state, the occurrence of dislocation tangling and dynamic recovery will give rise to early onset of strain softening and inferior ductility. (Author)