在线提供 29 June 2022
Abstract
The
effects of extrusion temperature on the microstructure and tensile
properties of extruded AZ61 and AZ91 alloys are investigated by
subjecting them to hot extrusion at 300 and 400 °C. Although the average
grain size of the extruded AZ61 alloy slightly increases from 9.5 to
12.6 µm with increasing extrusion temperature, its resultant
microstructural variation is insignificant. In contrast, the average
grain size of the extruded AZ91 alloy significantly increases from 5.7
to 22.5 µm with increasing extrusion temperature, and the type of Mg17Al12 precipitates formed in it changes from fine dynamic precipitates with a
spherical shape to coarse static precipitates with a lamellar
structure. As the extrusion temperature increases, the tensile yield
strength of the extruded AZ61 alloy increases from 183 to 197 MPa while
that of the extruded AZ91 alloy decreases from 232 to 224 MPa. The
tensile elongations of the extruded AZ61 and AZ91 alloys decrease with
increasing extrusion temperature, but the degree of decrease is
significant in the latter alloy. These different extrusion temperature
dependences of the tensile properties of the extruded AZ61 and AZ91
alloys are discussed in terms of their microstructural characteristics,
strengthening mechanisms, and crack initiation sites.
Keywords