A high pressure die cast (HPDC) magnesium alloy was friction stir processed (FSP) at high rotation rates with different advancing speeds. The friction stir process induced the disappearance of porosity, typical of the HPDC process, and formation of very fine grain boundary phases. Nanoindentation was used to mechanically characterize the different welded zones of interest, the thermomechanical heat affected zone (TMAZ), the stirred zone (SZ), in the advancing and the retreating side, at different sheet section depths. Aging at high temperature showed precipitates uniformly distributed inside the magnesium grains, due to the increased level of Al taken into solid solution
Nanoindentation and microstructure of a Friction Stir Processed High Pressure Die Cast Mg-Al-Zn alloy
LEO, PAOLA
2014-01-01
Abstract
A high pressure die cast (HPDC) magnesium alloy was friction stir processed (FSP) at high rotation rates with different advancing speeds. The friction stir process induced the disappearance of porosity, typical of the HPDC process, and formation of very fine grain boundary phases. Nanoindentation was used to mechanically characterize the different welded zones of interest, the thermomechanical heat affected zone (TMAZ), the stirred zone (SZ), in the advancing and the retreating side, at different sheet section depths. Aging at high temperature showed precipitates uniformly distributed inside the magnesium grains, due to the increased level of Al taken into solid solutionI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.