Hypereutectic Zn–Al Alloys: Microstructural Development under Unsteady-State Solidification Conditions, Eutectic Coupled Zone and Hardness

Abstract: The present study investigates the effects of Al content and solidification thermal parameters on the microstructural development under transient heat flow conditions for two hypereutectic Zn–Al alloys: Zn-6wt.%Al and Zn-11wt.%Al. The alloys were directionally solidified and had experimental cooling profiles monitored permitting cooling rates and growth rates to be determined along the length of the directionally solidified (DS) castings. The microstructure of the Zn-6wt.%Al alloy is shown to be formed by eute… Show more

“…The addition of Cd improved the casting aspects of the alloy, however, this addition must be carried out for applications that do not require high values of mechanical strength [8]. The work of Septimio et al [9] proposed a diagram showing the coupled zone of Zn-Al alloys as a function of the cooling rate, which showed a wide range of microstructural morphology sensibly influenced by the composition and cooling rate.…”

Microstructure, Mechanical Properties and Solidification Behavior of Metals and Alloys

“…The addition of Cd improved the casting aspects of the alloy, however, this addition must be carried out for applications that do not require high values of mechanical strength [8]. The work of Septimio et al [9] proposed a diagram showing the coupled zone of Zn-Al alloys as a function of the cooling rate, which showed a wide range of microstructural morphology sensibly influenced by the composition and cooling rate.…”

Microstructure, Mechanical Properties and Solidification Behavior of Metals and Alloys

Analysis on phase selection and microstructure evolution in directionally solidified Zn-Al-Mg-Ce alloy

Effects of cooling rate on microstructure and microhardness of directionally solidified Galvalume alloy